Organizer component system

ABSTRACT

An organizer component system provides multiple features that may be used independently or in combination to organize a variety of objects. The user can select from a variety of organizing apparatuses, components and system accessories based on user preference. Organizing apparatuses include, among others, those suitable for the desktop, for a computer monitor, for a corner and for a cubicle partition. This system can be used to organize items in the bathroom, craft are, shop area, garage, or simply to display photos anywhere.

This application claims priority to provisional application 60/621,681, dated Oct. 22, 2004 and 60/519,051, dated Nov. 10, 2003, which are incorporated herein in their entirety.

FIELD OF THE INVENTION

This invention relates to a system for organizing business or personal items. The invention relates generally to a system of devices and components for various situations and environments where organization is desired. In particular this relates to, but is not limited to, the environments of a desktop, a computer monitor, mirrors, walls, partitions and corners.

BACKGROUND OF THE INVENTION

The human need to organize surroundings for efficiency and to suit individual taste and preferences is well known. As the individuals strive to squeeze more activities into each day, and as the number of gadgets increase for both business and pleasure use, the need for organization and having items within arm's reach, increases.

The market has produced many accessories which are designed to save space, improve visual appearance, increase office and personal efficiency and link devices to computers. Examples of these accessories include desk organizers, pencil holders, stacking trays, monitor attachments, note holders, etc. The problem with these solutions is that they are generally piecemeal solutions, do not harmonize with each other and add to the clutter in the space to be organized. Also, these solutions generally do not address the needs of a wired and wireless world, advances in worker technology and the individual needs of workers wanting both a personalized and functional solution. Additionally, these solutions generally do not address the needs to organize additional gadgets that the user may acquire.

Therefore, it is an object of the present invention to provide an organizer component system which more effectively utilizes the small amount of space available, which accommodates changes in lifestyle or work requirements, which has harmonizing characteristics, and which allows for easy interchanging of a plurality of useful and decorative items.

SUMMARY OF THE INVENTION

The aforementioned and other objects were achieved by the present invention which is an organizer system. The resulting system is useful for organizing personal and business items.

Additional objects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages of the invention will be obtained by means of instrumentalities in combinations particularly pointed out in the appended claims.

The system is comprised of at least one apparatus that is enabled to receive at least one component. The apparatus can be in a variety of forms and is intended to be made to be placed on, or attached to, a variety of surfaces. Likewise the component is enabled to engage securely to the apparatus. The component may be decorative, useful or both, and generally mimics or replaces a commonplace personal or business item. The system may include a system accessory. The system accessory may be an item that makes a component functional, neater and the like, or the system accessory may complement the apparatus or the system.

The organizing apparatus relates to a holder for components that are made to make life more organized. The organizing apparatus is further comprised of one or more recessed areas, or cavities, also called pockets, which are made to accept components enabled to be secured into these pockets. These pockets can be made in a variety of shapes as long as the components to be attached have a base with a corresponding mating shape. The preferred design of the invention is explained within this patent application but the invention may be made in many different configurations and combinations. For instance, if electronic components are not needed for an organizing apparatus such as an embodiment targeted to the craft industry to hold craft supplies, then access holes in the pockets for electrical cable could be omitted. Another example would be if the embodiment of the organizing apparatus targeted uses only friction fit components then securing holes in the pockets could be omitted. Also included in this application are drawings and text going over many useful organizing components to be used in this invention. This list is meant to be extensive but not inclusive. Many other components are possible and are covered under this invention. Included below are just some examples on how the basic invention can be configured.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings illustrate a complete embodiment of the invention according to the best modes so far devised for the practical application of the principles thereof, and in which:

FIG. 1 shows an exploded view of a component base, 1001, drawn above a blown up view of an organizing apparatus, and aids in explaining how a component is made to fit into a component receiving area, 130, and helps explain the different aspects of the component receiving area in accordance with the present invention. FIG. 1 shows that the component base may have a solid surface or may have possible access hole Knockouts, 36, depending on the particular component that the base may be used for. FIG. 1 also shows one of the many different Component Base to Apparatus Securing Means, 1003, which in this figure the securing means is the Snap-in Plunger, 1003S. Many other Component Base to Apparatus Securing Means, 1003, may be used, they may be but are not limited to Friction Fit, 1003F, Adhesive, 1003A, Screws, 1003SC, Bolts, 1003B, Quick Release Clamps, 1003Q, Tapered Pin and Hole Friction Fit, 1003T, Velcro®, 1003V, 3M's Command Adhesive®, 1003M, among others. The exploded Apparatus portion of the drawing shows that the Component receiving area is a recessed Cavity, 140, to accept the component base, 1001, and shows the Access Hole, 143, that may be used to push out a component with your finger or to allow for cords and cables to be brought through the Organizing Apparatus, 110. The Punch-out section, 144, may be removed when there is a larger cable connector being used that will not fit through the access hole, so the punch out section is removed. FIG. 1 also shows the Component Securing Holes, 141, for the use of attaching a component base to the apparatus, 1003, in one of the many possible Component Base to Apparatus Securing Means, 1003, in accordance with the present invention.

FIG. 2 shows an exploded view of how a friction ring, 12, is used to hold a photo/image, 16, and a photo/image mat, 1190, in a component receiving area, 130, of an organizing apparatus, 110 (blown-up view) shown in accordance with the present invention.

FIG. 3 shows Photo/Image Mat component, 1190, for use in accordance with the present invention.

FIG. 4 shows a Photo/Image Template, 17, for example, a 0.005 inch die cut polyester film that is used as a template to trace on an image to enable the user to cut an image to the appropriate size for use in accordance with the present invention. The Photo/Image Template, 17, may also be used as a photo protecting film to be placed on top of the photo inside the component/image receiving area, 130.

FIG. 5 shows the Photo/Image cut to fit the component/image receiving area, 130, for use in accordance with the present invention.

FIG. 6 shows the Friction Ring, 12, drawn in its compressed shape in the cavity, 140, for use in accordance with the present invention.

FIG. 7 shows the Friction Ring, 12 on top of the photo Image Mat, 1190, which is on top of the Image, 16, and all are placed within the Component Receiving Area, 130, for use in accordance with the present invention.

FIG. 8 shows a blown up view of the Component/Image receiving section, 120, with the Component/Image receiving area, 130, shown for use in accordance with the present invention.

FIG. 9 shows a sectional view through the top portion of a Monitor Organizing Apparatus, 110M, and how a Component Base, 1001, is attached using the Snap-in Plunger, 1003S, securing means. FIG. 9 shows a type of Snap-in plunger in the locked position, 1003S1, and in the unlocked position, 10003S2 for use in accordance with the present invention. The user installs by pushing the component into the receiving area, 130, then the Snap-in Plungers, 1003S, pass through the component securing holes, 141. The user locks the component into place by pushing on the front of the component to expand the plungers in the Component Securing Hole, 141. To release the component, the user pulls out the plungers to unlock the component from the securing holes.

FIG. 10 shows a blown-up view of the Organizing Apparatus, 110, and the Component/Image Receiving Area, 130, from the back side to help explain how the Snap-in Plunger, 1003S, looks in the unlocked position, 1003S2, and in the locked position, 1003S1, to secure the component to the apparatus for use in accordance with the present invention.

FIG. 11 shows a blown-up view of the Organizing Apparatus, 110, and the Component Base, 1001, inserted in the Component Receiving Area, 130, viewed from the Image Receiving Section, 120, side to help explain how the Snap-in Plunger, 1003S, looks in the unlocked position, 1003S2, and in the locked position, 1003S1, to secure the component to the apparatus for use in accordance with the present invention. This view shows four Snap-in Plungers. Depending on the component using Snap-in Plungers; the quantity used will vary from one to as many as are needed, for example, four, depending on how secure the component needs to be.

FIG. 12 shows a Front view of the Component Base, 1001, to help explain how the Snap-in Plungers, 1003S, look for use in accordance with the present invention.

FIG. 13 shows a side view of the Component Base, 1001, to help explain how the Snap-in Plungers, 1003S, look for use in accordance with the present invention.

FIG. 14 shows a rear view of the Component Base, 1001, to help explain how the Snap-in Plungers, 1003S, look for use in accordance with the present invention. FIG. 14 also shows an additional optional element on the rear of the Component Base that would allow it to be secured to the apparatus in another way other than the Snap-in Plunger. This element is the Adhesive Base, 142, which can be used for double-sided foam adhesive tape, 38, or Hook and Loop Velcro, 46. FIG. 14 also shows the optional Access Hole Knockouts, 36, which may be used depending on the end use of the component base.

FIG. 15 shows a sectional view of the Component Base, 1001, to help explain how the Snap-in Plungers, 1003S, look for use in accordance with the present invention. FIG. 15 also shows an additional element on the rear of the Component Base that would allow it to be secured to the apparatus in another way other than the Snap-in Plunger. This element is the Adhesive Base, 142, which can be used for double-sided foam adhesive tape, 38, or Hook and Loop Velcro, 46. FIG. 15 also shows the Possible Access Hole Knockouts, 36, which may be used depending on the end use of the component base.

FIG. 16 shows a sectional view through the top portion of a Monitor Organizing Apparatus, 110M, and how a Component Base, 1001, is attached using the Screw, 1003SC, securing means and the Bolt, 1003B, securing means for use in accordance with the present invention. The user installs by pushing the component into the receiving area, 130, then inserting a screw or bolt through the component securing hole from the back of the apparatus and gently snug up the screw or bolt with the proper hardware driver. The user removes by unscrewing the screw or bolt to release.

FIG. 17 shows a blown-up view of the Organizing Apparatus, 110, and the back of the Component/Image Receiving Area, 130, to help explain how the Screw, 1003SC, and the Bolt, 1003B, look when used to secure the component to the apparatus for use in accordance with the present invention.

FIG. 18 shows a blown-up view of the Organizing Apparatus, 110, and the Component Base, 1001, inserted in the Component Receiving Area, 130, viewed from the Image Receiving Section, 120, side to help explain how the Screw, 1003SC, and the Bolt, 1003B are not visible from the front view when using to secure the component to the apparatus for use in accordance with the present invention.

FIG. 19 shows a Front view of the Component Base, 1001, when the Screw, 1003SC, and the Bolt, 1003B are used for use in accordance with the present invention.

FIG. 20 shows a side view of the Component Base, 1001, drawn without the Screw, 1003SC, and the Bolt, 1003B in place for use in accordance with the present invention.

FIG. 21 shows a rear view of the Component Base, 1001, drawn without the Screw, 1003SC, and the Bolt, 1003B in place to show the screw bosses, 32. When in use, the use of one screw or bolt up to all four may be used depending on how secure the component needs to be. FIG. 21 also shows an additional optional element on the rear of the Component Base that would allow it to be secured to the apparatus in another way other than the screw or bolt. This element is the Adhesive Base, 142, which may be used for double-sided foam adhesive tape, 38, or Hook and Loop Velcro, 46 instead of using the screws or bolts depending on the need of the application. FIG. 21 also shows the optional Access Hole Knockouts, 36, which may be used depending on the end use of the component base for use in accordance with the present invention.

FIG. 22 shows a sectional view through the Component Base, 1001, using the Screw, 1003SC, securing means and the Bolt, 1003B, securing means. FIG. 22 also shows the Adhesive Base, 142 for use in accordance with the present invention.

FIG. 23 shows a sectional view through the top portion of a Monitor Organizing Apparatus, 110M, and how a Component Base, 1001, is attached using the Quick Release Clamps, 1003Q, securing means for use in accordance with the present invention. The user installs by pushing the component into the receiving area, 130, and the clamps, 1003Q, pass through the component securing holes, 141, and snap into place while bending slightly and catching on the hook of the clamp. The user releases the component by pinching the two clamps towards each other and pulling out the component.

FIG. 24 shows a blown-up view of the Organizing Apparatus, 110, and the Component/Image Receiving Area, 130, from the back side to help explain how the Quick Release Clamps, 1003Q, look when used to secure the component to the apparatus for use in accordance with the present invention.

FIG. 25 shows a blown-up view of the Organizing Apparatus, 110, and the Component Base, 1001, inserted in the Component Receiving Area, 130, viewed from the Image Receiving Section, 120, side to help explain how the Quick Release Clamps, 1003Q are not visible from the front look when used to secure the component to the apparatus for use in accordance with the present invention.

FIG. 26 shows a Front view of the Component Base, 1001, with the Quick Release Clamps, 1003Q for use in accordance with the present invention.

FIG. 27 shows a top view of the Component Base, 1001, with the Quick Release Clamps, 1003Q for use in accordance with the present invention.

FIG. 28 shows a side view of the Component Base, 1001, with the Quick Release Clamps, 1003Q for use in accordance with the present invention.

FIG. 29 shows a rear view of the Component Base, 1001, with the Quick Release Clamps, 1003Q. FIG. 29 also shows an additional optional element on the rear of the Component Base that would allow it to be secured to the apparatus in another way other than the Quick Release Clamp. This element is the Adhesive Base, 142, which may be used for double-sided foam adhesive tape, 38, or Hook and Loop Velcro, 46 instead of using the screws or bolts depending on the need of the application for use in accordance with the present invention. FIG. 29 also shows the optional Access Hole Knockouts, 36, which may be used depending on the end use of the component base.

FIG. 30 shows a sectional view through the Component Base, 1001, with the Quick Release Clamps, 1003Q, securing means. FIG. 30 also shows the Adhesive Base, 142 for use in accordance with the present invention.

FIG. 31 shows a sectional view through the top portion of a Monitor Organizing Apparatus, 110M, and how an Image, 16, a Photo/Image Mat Component, 1190, is secured into The Component Image Receiving Area, 130, using a Friction Ring, 12. The Friction Ring uses friction against the wall of the Cavity, 140 for use in accordance with the present invention.

FIG. 32 shows a perspective view of a Desktop Organizing System, 001D, the Desktop Organizing Apparatus, 110D, specifically the Desk Top Organizing Apparatus-Eight, 110D8. FIG. 32 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, and the Component/Image Receiving Section, 120D in accordance with the present invention.

FIG. 33 shows a front view of the Desk Top Organizing Apparatus-Eight, 110D8 in accordance with the present invention.

FIG. 34 shows a side view of the Desk Top Organizing Apparatus-Eight, 110D8 in accordance with the present invention.

FIG. 35 shows a top view of the Desk Top Organizing Apparatus-Eight, 110D8 in accordance with the present invention.

FIG. 36 shows a perspective view of a Desktop Organizing Apparatus, 110D, specifically the Desk Top Organizing Apparatus-Six, 110D6. FIG. 36 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, Component/Image Receiving Section, 120D in accordance with the present invention.

FIG. 37 shows a front view of the Desk Top Organizing Apparatus-Six, 110D6, in accordance with the present invention.

FIG. 38 shows a side view of the Desk Top Organizing Apparatus-Six, 110D6, in accordance with the present invention.

FIG. 39 shows a top view of the Desk Top Organizing Apparatus-Six, 110D6, in accordance with the present invention.

FIG. 40 shows a perspective view of a Desktop Organizing Apparatus, 110D, specifically the Desk Top Organizing Apparatus-Three, 110D3. FIG. 40 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, Component/Image Receiving Section, 120D in accordance with the present invention.

FIG. 41 shows a front view of the Desk Top Organizing Apparatus-Three, 110D3, in accordance with the present invention.

FIG. 42 shows a side view of the Desk Top Organizing Apparatus-Three, 110D3, in accordance with the present invention.

FIG. 43 shows a top view of the Desk Top Organizing Apparatus-Three, 110D3, in accordance with the present invention.

FIG. 44 shows a perspective view of a Desktop Organizing Apparatus, 110D, specifically the Desk Top Organizing Apparatus-Solo, 110D1. FIG. 44 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, Component/Image Receiving Section, 120D in accordance with the present invention.

FIG. 45 shows a front view of the Desk Top Organizing Apparatus-Solo, 110D1, in accordance with the present invention.

FIG. 46 shows a side view of the Desk Top Organizing Apparatus-Solo, 110D1, in accordance with the present invention.

FIG. 47 shows a top view of the Desk Top Organizing Apparatus-Solo, 110D1, in accordance with the present invention.

FIG. 48 shows a side view section of the Desk Top Organizing Apparatus-Eight, 110D8 in accordance with the present invention.

FIG. 49 shows a partial view section from FIG. 48 of the Desk Top Organizing Apparatus-Eight, 110D8. This partial view shows a sectional view through the top portion of a Desk Top Organizing Apparatus and how an Image, 16, is secured into the Component Image Receiving Area, 130, using a Friction Ring, 12. The Friction Ring uses friction against the wall of the Cavity, 140 for use in accordance with the present invention. This partial view can be used as reference for any of the embodiments of the Desk Top Organizing Apparatus, 110D.

FIG. 50 shows a partial view section from FIG. 48 of the Desk Top Organizing Apparatus-Eight, 110D8. This partial view shows a sectional view through the top portion of a Desk Top Organizing Apparatus, 110D, and how a Component Base, 1001, is attached using the Snap-in Plunger, 1003S, securing means. FIG. 50 shows one embodiment of a Snap-in plunger in the locked position, 1003S1, and in the unlocked position, 10003S2, for use in accordance with the present invention. This partial view can be used as reference for any of the embodiments of the Desk Top Organizing Apparatus, 110D.

FIG. 51 shows a partial view section from FIG. 48 of the Desk Top Organizing Apparatus-Eight, 110D8. This partial view shows a sectional view through the top portion of a Desk Top Organizing Apparatus, 110D, and how a Component Base, 1001, is attached using the Screw, 1003SC, securing means and the Bolt, 1003B, securing means for use in accordance with the present invention. This partial view can be used as reference for any of the embodiments of a Desk Top Organizing Apparatus, 110D.

FIG. 52 shows a partial view section from FIG. 48 of the Desk Top Organizing Apparatus-Eight, 110D8. This partial view shows a sectional view through the top portion of a Desk Top Organizing Apparatus, 110D, and how a Component Base, 1001, is attached using the Quick Release Clamps, 1003Q, securing means for use in accordance with the present invention. This partial view can be used as reference for any of the embodiments of a Desk Top Organizing Apparatus, 110D.

FIG. 53 shows a side exploded view of the Desk Top Organizing Apparatus-Eight, 110D8. FIG. 53 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, Component/Image Receiving Section, 120D, separated into their three separate pieces for packaging for use in accordance with the present invention. FIG. 53 also shows the Male/Female Connections, 56, and how to assemble the separate parts. This partial view may be used as reference for any of the embodiments of the Desk Top Organizing Apparatus, 110D where the Desk Top Organizing Apparatus is made in sections, as opposed to one molded unit.

FIG. 54 shows a top view of the Desk Top Organizing Apparatus-Eight, 110D8 in a possible package scenario. FIG. 54 shows the Component/Image Receiving Section, 120D, nested in the potential package for use in accordance with the present invention. This partial view may be used as reference for any of the embodiments of a Desk Top Organizing Apparatus, 110D, where the Desk Top Organizing Apparatus is made in sections, as opposed to one molded unit.

FIG. 55 shows a side view of the Desk Top Organizing Apparatus-Eight, 110D8 in a possible package scenario. FIG. 55 shows the three main elements of the apparatus, the Bottom Section, 111, the Support Section, 114, Component/Image Receiving Section, 120D, separated into three separate pieces and nested above each other to show one possible packaging scenario for use in accordance with the present invention. FIG. 55 also reveals other views of the Male/Female Connections, 56. This partial view may be used as reference for any of the Desk Top Organizing Apparatus, 110D, where the Desk Top Organizing Apparatus is made in sections, as opposed to one molded unit.

FIG. 56 shows a perspective view of a Monitor Organizing System, 001M, specifically the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 57 shows a top view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 58 shows a side view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 59 shows a front view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 60 shows a side view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 61 shows a bottom view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 62 shows a sectional view of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 63 shows a partial sectional view from FIG. 62 of the Monitor Organizing Apparatus, 110M for use in accordance with the present invention.

FIG. 64 shows a top view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option in case the retailers require a smaller profile package. FIG. 64 shows the segments pulled apart exposing the Male/Female Connections, 56, for use in accordance with the present invention.

FIG. 65 shows a side view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option. FIG. 65 shows the segments pulled apart exposing the Male/Female Connections, 56, for use in accordance with the present invention.

FIG. 66 shows a front view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option. FIG. 66 shows the segments pulled apart exposing the Male/Female Connections, 56, for use in accordance with the present invention.

FIG. 67 shows a top view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option for the case that the retailers require a smaller profile package. FIG. 67 shows the segments together with the Male/Female Connections, 56, drawn in hidden lines for use in accordance with the present invention.

FIG. 68 shows a side view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option. FIG. 68 shows the segments together with the Male/Female Connections, 56, drawn in hidden lines for use in accordance with the present invention.

FIG. 69 shows a front view of the Monitor Organizing Apparatus, 110M, drawn to show a possible segmented option. FIG. 69 shows the segments together with the Male/Female Connections, 56, drawn in hidden lines for use in accordance with the present invention.

FIG. 70 shows a sectional view of the Monitor Organizing Apparatus, 110M, attached to a monitor using Dual Lock Velcro®, 18, for use in accordance with the present invention. This section shows the apparatus cut in the same place as shown in FIG. 59 (62-62).

FIG. 71 shows a partial view section from FIG. 70 of the Monitor Organizing Apparatus, 110M, attached to a monitor using Dual Lock Velcro®, 18, for use in accordance with the present invention.

FIG. 72 shows a front view of one embodiment of a Monitor Organizing Apparatus, 001M, for use in accordance with the present invention.

FIG. 73 shows a front view of one embodiment of a Monitor Organizing Apparatus, 001M, for use in accordance with the present invention.

FIG. 74 shows a front view of the Monitor Organizing Apparatus, 110M on different size CRT and LCD monitors and also showing how the Monitor Organizing Apparatus, 110M, can be attached to the face of the monitor on either the upper left or upper right side for use in accordance with the present invention.

FIG. 75 shows a perspective view of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 76 shows a top view of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 77 shows a rear view of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 78 shows a front view of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 79 shows a side view of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 80 shows a sectional view from FIG. 78 of a Multipurpose Organizing Apparatus, 110V, to aid in understanding how the Hang Flat Attachment, 60, is connected, for use in accordance with the present invention.

FIG. 81 shows a sectional blown-up view from FIG. 78 of a Multipurpose Organizing Apparatus, 110V, to aid in understanding how the Hang Flat Attachment, 60, is connected, along with the Hang Flat Cleat, 61, for use in accordance with the present invention.

FIG. 82 shows a blown up rear view of a Multipurpose Organizing Apparatus, 110V, to aid in understanding how the Hang Flat Attachment, 60, is connected, for use in accordance with the present invention. FIG. 82 also shows the Hang Flat Attachment's Nail or Hook Hole, 60H, for use in hanging flat on a wall with a nail or a hook.

FIG. 83 shows a sectional view from FIG. 78 of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 84 shows a sectional view from FIG. 78 of a Multipurpose Organizing Apparatus, 110V, for use in accordance with the present invention.

FIG. 85 shows a top view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 86 shows a top view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 87 shows a top view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 88 shows a front view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 89 shows a side view (adhesive tape side, view) of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 90 shows a rear view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 91 shows a top view of a Wedge Connector, 58, for use in accordance with the present invention.

FIG. 92 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, in a manner that when installed would make the Multipurpose Organizing Apparatus tip in, for use in accordance with the present invention.

FIG. 93 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, in a manner that when installed would make the Multipurpose Organizing Apparatus tip away, for use in accordance with the present invention.

FIG. 94 shows a top view of a Multipurpose Organizing Apparatus, 110V, with Double Sided Foam Adhesive Tape, 38, adhered to the side of the apparatus in a manner that when installed, would make the Multipurpose Organizing Apparatus stand at a right angle (approximately 90 degrees) to the vertical surface that it is adhered to, for use in accordance with the present invention.

FIG. 95 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, which is adhered to the Monitor Organizing Apparatus, 110M in a manner that when installed would make the Multipurpose Organizing Apparatus tip in, for use in accordance with the present invention.

FIG. 96 shows a skewed view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, which is adhered to the Monitor Organizing Apparatus, 110M, shown in front view, in a manner that when installed would make the Multipurpose Organizing Apparatus tip in, for use in accordance with the present invention.

FIG. 97 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the side of the Monitor Organizing Apparatus, 110M, for use in accordance with the present invention.

FIG. 98 shows a front view of a Multipurpose Organizing Apparatus, 110V, adhered to the side of the Monitor Organizing Apparatus, 110M, for use in accordance with the present invention.

FIG. 99 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, which is adhered to the Monitor Organizing Apparatus, 110M in a manner that when installed would make the Multipurpose Organizing Apparatus tips away, for use in accordance with the present invention.

FIG. 100 shows a skewed view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, which is adhered to the Monitor Organizing Apparatus, 110M, shown in front view, in a manner that when installed would make the Multipurpose Organizing Apparatus tip away, for use in accordance with the present invention.

FIG. 101 shows a top view of a Multipurpose Organizing Apparatus, 110V, adhered to the Wedge Connector, 58, which is adhered to a Vertical Surface, 64, in a manner that when installed would make the Multipurpose Organizing Apparatus tip away, for use in accordance with the present invention. The vertical surface can be almost any smooth to semi-smooth surface from a mirror to a wall.

FIG. 102 shows a perspective view of a Wall Hanging Organizing Apparatus, 110W, for use in accordance with the present invention.

FIG. 103 shows a top view of a Wall Hanging Organizing Apparatus, 110W, for use in accordance with the present invention.

FIG. 104 shows a front view of a Wall Hanging Organizing Apparatus, 110W, for use in accordance with the present invention.

FIG. 105 shows a side view of a Wall Hanging Organizing Apparatus, 110W, for use in accordance with the present invention.

FIG. 106 shows a rear view of a Wall Hanging Organizing Apparatus, 110W, for use in accordance with the present invention.

FIG. 107 shows a partial side view from FIG. 109 of a Wall Hanging Organizing Apparatus, 110W, using a cubical Wall Hanger, 69, screwed to the supporting cleat, 67, for use in accordance with the present invention.

FIG. 108 shows a partial side view from FIG. 110 of a Wall Hanging Organizing Apparatus, 110W, using a Supporting Cleat, 67, screwed to the vertical surface, 64, for use in accordance with the present invention

FIG. 109 shows a side view of a Wall Hanging Organizing Apparatus, 110W, using a cubical Wall Hanger, 69, screwed to the Supporting Cleat, 67, for use in accordance with the present invention.

FIG. 110 shows a side view of a Wall Hanging Organizing Apparatus, 110W, using a Supporting Cleat, 67, screwed to the vertical surface, 64, for use in accordance with the present invention.

FIG. 111 shows a front view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, and shows the cubical wall hangers, 69, attached for use in accordance with the present invention.

FIG. 112 shows a front view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, and shows the cubical wall hangers, 69, attached for use in accordance with the present invention.

FIG. 113 shows a top view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, for use in accordance with the present invention.

FIG. 114 shows a top view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, for use in accordance with the present invention.

FIG. 115 shows a rear view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, for use in accordance with the present invention.

FIG. 116 shows a rear view of multiple Wall Hanging Organizing Apparatuses, 110W, attached together using plastic battens, 68, for use in accordance with the present invention.

FIG. 117 shows a partial top blown-up view from FIG. 118 of multiple Wall Hanging Organizing Apparatuses, 110W, screwed together using plastic battens, 68, and screws for use in accordance with the present invention.

FIG. 118 shows a partial rear view from FIG. 116 of multiple Wall Hanging Organizing Apparatuses, 110W, screwed together using plastic battens, 68, and screws for use in accordance with the present invention.

FIG. 119 shows a front view of the Audio Station Component, 1010, for use in accordance with the present invention.

FIG. 120 shows a side view of the Audio Station Component, 1010, for use in accordance with the present invention.

FIG. 121 shows a perspective view of the Audio Station Component, 1010, for use in accordance with the present invention.

FIG. 122 shows a sectional view of the Audio Station Component, 1010, for use in accordance with the present invention.

FIG. 123 shows a front view of the Bud Vase Component version II, 1430, for use in accordance with the present invention.

FIG. 124 shows a side view of the Bud Vase Component version II, 1430, for use in accordance with the present invention.

FIG. 125 shows a sectional view of the Bud Vase Component version II, 1430, for use in accordance with the present invention.

FIG. 126 shows a front view of the Bud Vase Component version I, 1020, for use in accordance with the present invention.

FIG. 127 shows a side view of the Bud Vase Component version I, 1020, for use in accordance with the present invention.

FIG. 128 shows a perspective view of the Bud Vase Component version I, 1020, for use in accordance with the present invention.

FIG. 129 shows a sectional view of the Bud Vase Component version I, 1020, for use in accordance with the present invention.

FIG. 130 shows a front view of the Vile, 40, and Cap, 41, from the Bud Vase Components for use in accordance with the present invention.

FIG. 131 shows a sectional view of the Vile, 40, from the Bud Vase Components for use in accordance with the present invention.

FIG. 132 shows a perspective view of the Vile, 40, from the Bud Vase Components for use in accordance with the present invention.

FIG. 133 shows a top view of the Cap, 41 from the Bud Vase Components for use in accordance with the present invention.

FIG. 134 shows a front view of the Clip, 42 from the Bud Vase Components for use in accordance with the present invention.

FIG. 135 shows a side view of the Clip, 42 from the Bud Vase Components for use in accordance with the present invention.

FIG. 136 shows a sectional view of the Cap, 41 from the Bud Vase Components for use in accordance with the present invention.

FIG. 137 shows a bottom view of the Clip, 42 from the Bud Vase Components for use in accordance with the present invention.

FIG. 138 shows a perspective view of the Clip, 42 from the Bud Vase Components for use in accordance with the present invention.

FIG. 139 shows a perspective view of the Cap, 41 from the Bud Vase Components for use in accordance with the present invention.

FIG. 140 shows a bottom view of the Calculator Component, 1030 without the calculator for use in accordance with the present invention.

FIG. 141 shows a front view of the Calculator Component, 1030 without the calculator for use in accordance with the present invention.

FIG. 142 shows a side view of the Calculator Component, 1030 without the calculator for use in accordance with the present invention.

FIG. 143 shows a perspective view of the Calculator Component, 1030 without the calculator for use in accordance with the present invention.

FIG. 144 shows a perspective view of the Calculator Component, 1030, with the calculator attached by the magnet for use in accordance with the present invention.

FIG. 145 shows a front view of the Calculator Component, 1030, showing the calculator by itself for use in accordance with the present invention.

FIG. 146 shows a side view of the Calculator Component, 1030, showing the calculator by itself for use in accordance with the present invention.

FIG. 147 shows a bottom view of the Calculator Component, 1030, showing the calculator by itself for use in accordance with the present invention.

FIG. 148 shows a front view of the Calculator Component, 1030 with the calculator attached by the magnet for use in accordance with the present invention.

FIG. 149 shows a bottom view of the Calculator Component, 1030 with the calculator attached by the magnet for use in accordance with the present invention.

FIG. 150 shows a front view of the Caller ID Display Component, 1040, for use in accordance with the present invention.

FIG. 151 shows a side view of the Caller ID Display Component, 1040, for use in accordance with the present invention.

FIG. 152 shows a perspective view of the Caller ID Display Component, 1040, for use in accordance with the present invention.

FIG. 153 shows a sectional view of the Caller ID Display Component, 1040, for use in accordance with the present invention.

FIG. 154 shows a front view of the Camera Component, 1050, for use in accordance with the present invention.

FIG. 155 shows a side view of the Camera Component, 1050, for use in accordance with the present invention.

FIG. 156 shows a perspective view of the Camera Component, 1050, for use in accordance with the present invention.

FIG. 157 shows a sectional view of the Camera Component, 1050, for use in accordance with the present invention.

FIG. 158 shows a front view of the Card Holder Component, 1060, for use in accordance with the present invention.

FIG. 159 shows a side view of the Card Holder Component, 1060, for use in accordance with the present invention.

FIG. 160 shows a perspective view of the Card Holder Component, 1060, for use in accordance with the present invention.

FIG. 161 shows a sectional view of the Card Holder Component, 1060, for use in accordance with the present invention.

FIG. 162 shows a perspective view of the Cell Phone Clip Component, 1070, for use in accordance with the present invention.

FIG. 163 shows a top view of the Cell Phone Clip Component, 1070, for use in accordance with the present invention.

FIG. 164 shows a sectional view of the Cell Phone Clip Component, 1070, for use in accordance with the present invention.

FIG. 165 shows a front view of the Cell Phone Clip Component, 1070, for use in accordance with the present invention.

FIG. 166 shows a side view of the Cell Phone Clip Component, 1070, for use in accordance with the present invention.

FIG. 167 shows a front view of the Dial Clock Component, 1080, for use in accordance with the present invention.

FIG. 168 shows a side view of the Dial Clock Component, 1080, for use in accordance with the present invention.

FIG. 169 shows a perspective view of the Dial Clock Component, 1080, for use in accordance with the present invention.

FIG. 170 shows a sectional view of the Dial Clock Component, 1080, for use in accordance with the present invention. This view also shows how the friction nibs, 65, compress inside the pocket in the base to hold the clock securely with friction.

FIG. 171 shows a front view of the Digital Clock Component, 1090, for use in accordance with the present invention.

FIG. 172 shows a side view of the Digital Clock Component, 1090, for use in accordance with the present invention.

FIG. 173 shows a perspective view of the Digital Clock Component, 1090, for use in accordance with the present invention.

FIG. 174 shows a sectional view of the Digital Clock Component, 1090, for use in accordance with the present invention.

FIG. 175 shows a front view of the Horizontal Disk Caddy Component Version I, 1100, for use in accordance with the present invention.

FIG. 176 shows a side view of the Horizontal Disk Caddy Component Version I, 1100, for use in accordance with the present invention.

FIG. 177 shows a perspective view of the Horizontal Disk Caddy Component Version I, 1100, for use in accordance with the present invention. Shown without the disks inserted.

FIG. 178 shows a perspective view of the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention. Shown without the disks inserted.

FIG. 179 shows a top view of the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention.

FIG. 180 shows a side view of the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention.

FIG. 181 shows a front view of the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention.

FIG. 182 shows a sectional view of the Disk Receptacle, 24, used in the Vertical Disk Caddy Component, 1110, and used in the Vertical Disk Caddy Reconfigured Accessory, 2310, also used in Horizontal Disk Caddy Component Version II, 1440, for use in accordance with the present invention.

FIG. 183 shows a side view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto. FIG. 183 also shows in an exploded view on how the two snap together when used to assemble the Vertical Disk Caddy Reconfigured Accessory, 2310, and used in Horizontal Disk Caddy Component Version II, 144, for use in accordance with the present invention.

FIG. 184 shows a sectional view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto for use in accordance with the present invention.

FIG. 185 shows a top view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto for use in accordance with the present invention.

FIG. 186 shows an end view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto for use in accordance with the present invention.

FIG. 187 shows a side view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto. FIG. 187 also shows in an exploded view on how the two snap together when used to assemble the vertical disk caddy, 1110, for use in accordance with the present invention.

FIG. 188 shows a top view of the Receptacle Receiver, 25, which is the place where the Disk Receptacle, 24, snaps onto for use in accordance with the present invention.

FIG. 189 shows a sectional view of the Disk Receptacle, 24, and Receptacle Receiver, 25, used in the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention.

FIG. 190 shows a sectional view of the Disk Receptacle, 24, and Receptacle Receiver, 25, joined together for using in the Vertical Disk Caddy Reconfigured Accessory, 2310, also used in Horizontal Disk Caddy Component Version II, 1440, for use in accordance with the present invention.

FIG. 191 shows a sectional view of the Disk Receptacle, 24, and Receptacle Receiver, 25, joined together for using in the Vertical Disk Caddy Component, 1110, for use in accordance with the present invention.

FIG. 192 shows a front view of the Vertical Disk Caddy Reconfigured Accessory, 2310, for use in accordance with the present invention.

FIG. 193 shows a side view of the Vertical Disk Caddy Reconfigured Accessory, 2310, for use in accordance with the present invention.

FIG. 194 shows a perspective view of the Vertical Disk Caddy Reconfigured Accessory, 2310, for use in accordance with the present invention. This accessory is built from the same pieces as the Vertical Disk Caddy Component, 1110, with addition of the Disk Caddy Accessory. Support, 26.

FIG. 195 shows a sectional view of the Vertical Disk Caddy Reconfigured Accessory, 2310, for use in accordance with the present invention.

FIG. 196 shows a sectional view of the Vertical Disk Caddy Reconfigured Accessory, 2310, for use in accordance with the present invention.

FIG. 197 shows a sectional view of the Disk Caddy Component Version II, 1440, for use in accordance with the present invention.

FIG. 198 shows a side view of the Disk Caddy Component Version II, 1440, for use in accordance with the present invention.

FIG. 199 shows a bottom view of the Disk Caddy Component Version II, 1440, for use in accordance with the present invention.

FIG. 200 shows a perspective view of the Disk Caddy Component Version II, 1440, for use in accordance with the present invention. This component is basically the Vertical Disk Caddy Reconfigured Accessory, 2310, but without the Accessory Support, 26.

FIG. 201 shows a top view of the Document Holder Component, 1120, for use in accordance with the present invention.

FIG. 202 shows a front view of the Document Holder Component, 1120, for use in accordance with the present invention.

FIG. 203 shows a side view of the Document Holder Component, 1120, for use in accordance with the present invention.

FIG. 204 shows a perspective view of the Document Holder Component, 1120, for use in accordance with the present invention.

FIG. 205 shows a front view of the Dry Erase Board Component, 1410, for use in accordance with the present invention.

FIG. 206 shows a side view of the Dry Erase Board Component, 1410, for use in accordance with the present invention.

FIG. 207 shows a rear view of the Dry Erase Board Component, 1410, for use in accordance with the present invention.

FIG. 208 shows a perspective view of the Dry Erase Board Component, 1410, for use in accordance with the present invention.

FIG. 209 shows a front view of the Fan Component, 1130, for use in accordance with the present invention.

FIG. 210 shows a side view of the Fan Component, 1130, for use in accordance with the present invention.

FIG. 211 shows a perspective view of the Fan Component, 1130, for use in accordance with the present invention.

FIG. 212 shows a sectional view of the Fan Component, 1130, for use in accordance with the present invention.

FIG. 213 shows a front view of the base of the Flag Dispenser Component, 1140, for use in accordance with the present invention. This base is also the same base used for the Tape Dispenser Version 1 “3M” Component, 1290.

FIG. 214 shows a side view of the base of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 215 shows a perspective view of the base of the Flag Dispenser Component, 1140, for use in accordance with the present invention. This base is also the same base used for the Tape Dispenser Version 1 “3M” Component, 1290

FIG. 216 shows a sectional view of the base of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 217 shows a front view of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 218 shows a side view of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 219 shows a perspective view of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 220 shows a sectional view of the Flag Dispenser Component, 1140, for use in accordance with the present invention.

FIG. 221 shows a side view of the Flash Memory Card Reader/Writer Component, 1150, for use in accordance with the present invention.

FIG. 222 shows a front view of the Flash Memory Card Reader/Writer Component, 1150, for use in accordance with the present invention.

FIG. 223 shows a bottom view of the Flash Memory Card Reader/Writer Component, 1150, for use in accordance with the present invention.

FIG. 224 shows a sectional view of the Flash Memory Card Reader/Writer Component, 1150, for use in accordance with the present invention.

FIG. 225 shows a perspective view of the Flash Memory Card Reader/Writer Component, 1150, for use in accordance with the present invention.

FIG. 226 shows a perspective view of the Hanging Hook Component, 1160, for use in accordance with the present invention.

FIG. 227 shows a sectional view of the Hanging Hook Component, 1160, for use in accordance with the present invention.

FIG. 228 shows a front view of the Hanging Hook Component, 1160, for use in accordance with the present invention.

FIG. 229 shows a side view of the Hanging Hook Component, 1160, for use in accordance with the present invention.

FIG. 230 shows a perspective view of the LCD Screen Component, 1170, for use in accordance with the present invention.

FIG. 231 shows a sectional view of the LCD Screen Component, 1170, for use in accordance with the present invention.

FIG. 232 shows a front view of the LCD Screen Component, 1170, for use in accordance with the present invention.

FIG. 233 shows a side view of the LCD Screen Component, 1170, for use in accordance with the present invention.

FIG. 234 shows a front view of the Magnetic Holder Component, 1400, for use in accordance with the present invention.

FIG. 235 shows a side view of the Magnetic Holder Component, 1400, for use in accordance with the present invention.

FIG. 236 shows a rear view of the Magnetic Holder Component, 1400, for use in accordance with the present invention.

FIG. 237 shows a perspective view of the Magnetic Holder Component, 1400, for use in accordance with the present invention.

FIG. 238 shows a front view of the Mirror Component, 1180, for use in accordance with the present invention.

FIG. 239 shows a side view of the Mirror Component, 1180, for use in accordance with the present invention.

FIG. 240 shows a rear view of the Mirror Component, 1180, for use in accordance with the present invention.

FIG. 241 shows a perspective view of the Mirror Component, 1180, for use in accordance with the present invention.

FIG. 242 shows plan views of a variety of the Photo/Image Mat Components, 1190, showing different possible shaped image openings for use in accordance with the present invention.

FIG. 243 shows a plan of a Photo/Image Mat—Consumer Printed Component, 1200, for use in accordance with the present invention. The actual inside shape of the openings for the image of the individual mats can vary, see FIG. 242.

FIG. 244 shows a plan of a Photo/Image Mat—Consumer Printed Component, 1200, for use in accordance with the present invention. The actual inside shape of the individual mats can vary, see FIG. 242.

FIG. 245 shows a perspective view of the Small Pocket Component, 1210, for use in accordance with the present invention.

FIG. 246 shows a perspective view of the Medium Pocket Component, 1220, for use in accordance with the present invention.

FIG. 247 shows a perspective view of the Large Pocket Component, 1230, for use in accordance with the present invention.

FIG. 248 shows a perspective view of the Tall Pocket Component, 1240, for use in accordance with the present invention.

FIG. 249 shows a top view of the Small Pocket Component, 1210, for use in accordance with the present invention.

FIG. 250 shows a sectional view of the Small Pocket Component, 1210, for use in accordance with the present invention.

FIG. 251 shows a front view of the Small Pocket Component, 1210, for use in accordance with the present invention.

FIG. 252 shows a side view of the Small Pocket Component, 1210, for use in accordance with the present invention.

FIG. 253 shows a top view of the Medium Pocket Component, 1220, for use in accordance with the present invention.

FIG. 254 shows a sectional view of the Medium Pocket Component, 1220, for use in accordance with the present invention.

FIG. 255 shows a front view of the Medium Pocket Component, 1220, for use in accordance with the present invention.

FIG. 256 shows a side view of the Medium Pocket Component, 1220, for use in accordance with the present invention.

FIG. 257 shows a top view of the Large Pocket Component, 1230, for use in accordance with the present invention.

FIG. 258 shows a sectional view of the Large Pocket Component, 1230, for use in accordance with the present invention.

FIG. 259 shows a front view of the Large Pocket Component, 1230, for use in accordance with the present invention.

FIG. 260 shows a side view of the Large Pocket Component, 1230, for use in accordance with the present invention.

FIG. 261 shows a top view of the Tall Pocket Component, 1240, for use in accordance with the present invention.

FIG. 262 shows a sectional view of the Tall Pocket Component, 1240, for use in accordance with the present invention.

FIG. 263 shows a front view of the Tall Pocket Component, 1240, for use in accordance with the present invention.

FIG. 264 shows a side view of the Tall Pocket Component, 1240, for use in accordance with the present invention.

FIG. 265 shows a front view of the AM/FM Radio Component, 1380, for use in accordance with the present invention.

FIG. 266 shows a side view of the AM/FM Radio Component, 1380, for use in accordance with the present invention.

FIG. 267 shows a bottom view of the AM/FM Radio Component, 1380, for use in accordance with the present invention.

FIG. 268 shows a perspective view of the Satellite Radio Receiver Socket & Radio Component, 1250, for use in accordance with the present invention.

FIG. 269 shows a sectional view of the Satellite Radio Receiver Socket & Radio Component, 1250, for use in accordance with the present invention.

FIG. 270 shows a front view of the Satellite Radio Receiver Socket & Radio Component, 1250, for use in accordance with the present invention.

FIG. 271 shows a side view of the Satellite Radio Receiver Socket Component, 1250, for use in accordance with the present invention.

FIG. 272 shows a front view of the Speaker Component, 1260, for use in accordance with the present invention.

FIG. 273 shows a side view of the Speaker Component, 1260, for use in accordance with the present invention.

FIG. 274 shows a perspective view of the Speaker Component, 1260, for use in accordance with the present invention.

FIG. 275 shows a front view of the Sticky Bulletin Board Component, 1270, for use in accordance with the present invention.

FIG. 276 shows a perspective view of the Sticky Bulletin Board Component, 1270, for use in accordance with the present invention.

FIG. 277 shows a rear view of the Sticky Bulletin Board Component, 1270, for use in accordance with the present invention.

FIG. 278 shows a side view of the Sticky Bulletin Board Component, 1270, for use in accordance with the present invention.

FIG. 279 shows a front view of the Sticky Notes Component, 1280, for use in accordance with the present invention.

FIG. 280 shows a side view of the Sticky Notes Component, 1280, for use in accordance with the present invention.

FIG. 281 shows a rear view of the Sticky Notes Component, 1280, for use in accordance with the present invention.

FIG. 282 shows a perspective view of the Sticky Notes Component, 1280, for use in accordance with the present invention.

FIG. 283 shows a side view of the Tape Dispenser Version 1 “3M” Component, 1290, for use in accordance with the present invention. This base is also the same base used for the Flag Dispenser Component, 1140. A Scotch Pop-up Tape Strip Dispenser's docking bracket is mounted to the Tape Dispenser Conversion Plate, 23, which will enable it to slide into the base.

FIG. 284 shows a front view of the Tape Dispenser Version 1 “3M” Component, 1290, for use in accordance with the present invention. This base is also the same base used for the Flag Dispenser Component, 1140. A Scotch Pop-up Tape Strip Dispenser's docking bracket is mounted to the Tape Dispenser Conversion Plate, 23, which will enable it to slide into the base.

FIG. 285 shows a side view of the Tape Dispenser Version 1 “3M” Component, 1290, drawn not installed in the base for clarification for use in accordance with the present invention.

FIG. 286 shows a front view of the Tape Dispenser Version 1 “3M” Component, 1290, drawn not installed in the base for clarification for use in accordance with the present invention.

FIG. 287 shows a perspective view of the Tape Dispenser Version 1 “3M” Component, 1290, drawn not installed in the base for clarification for use in accordance with the present invention.

FIG. 288 shows a front view of the Tape Dispenser Version 2 Component, 1370, for use in accordance with the present invention.

FIG. 289 shows a side view of the Tape Dispenser Version 2 Component, 1370, for use in accordance with the present invention.

FIG. 290 shows a perspective view of the Tape Dispenser Version 2 Component, 1370, for use in accordance with the present invention.

FIG. 291 shows a sectional view of the Tape Dispenser Version 2 Component, 1370, for use in accordance with the present invention.

FIG. 292 shows a front view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention.

FIG. 293 shows a side view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention.

FIG. 294 shows a bottom view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention.

FIG. 295 shows a perspective view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention.

FIG. 296 shows a sectional view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention. The tape hold down is removed for better understanding.

FIG. 297 shows a sectional view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention. The section is through the middle of the roll of tape showing a {fraction (1/2)} inch roll of tape.

FIG. 298 shows a sectional view of the Tape Dispenser Version 3 Component, 1300, for use in accordance with the present invention. The section is through the middle of the roll of tape showing a ¾-inch roll of tape. FIG. 298 also shows the use of a supplied Tape Dispenser Spacer Block, 37, to be used when using ¾-inch roll of tape.

FIG. 299 shows a top view of the Task Light Version I Component, 1310, for use in accordance with the present invention.

FIG. 300 shows a perspective view of the Task Light Version I Component, 1310, for use in accordance with the present invention.

FIG. 301 shows a front view of the Task Light Version I Component, 1310, for use in accordance with the present invention.

FIG. 302 shows a side view of the Task Light Version I Component, 1310, for use in accordance with the present invention. It also shows the direction of the tilt for directing the light.

FIG. 303 shows a front view of the Task Light Version II Component, 1390, for use in accordance with the present invention.

FIG. 304 shows a side view of the Task Light Version II Component, 1390, for use in accordance with the present invention.

FIG. 305 shows a top view of the Task Light Version II Component, 1390, for use in accordance with the present invention.

FIG. 306 shows a sectional view of the Task Light Version II Component, 1390, for use in accordance with the present invention. This view also shows the LED in a different location revealing the range of motion.

FIG. 307 shows a front view of the Universal Cradle Component, 1320, for use in accordance with the present invention. This view shows the cradle holding a wide unit like a PDA.

FIG. 308 shows a bottom view of the Universal Cradle Component, 1320, for use in accordance with the present invention. This view shows the cradle holding a combination of different sized electronics.

FIG. 309 shows a front view of the Universal Cradle Component, 1320, for use in accordance with the present invention. This view shows the cradle holding a tall unit like a cell phone.

FIG. 310 shows a perspective view of the Universal Cradle Component, 1320, for use in accordance with the present invention.

FIG. 311 shows a front view of the Universal Cradle Component, 1320, for use in accordance with the present invention. This view shows the cradle holding a small narrow unit like some PDAs.

FIG. 312 shows a front view of the USB Port/Hub Component, 1330, for use in accordance with the present invention.

FIG. 313 shows a side view of the USB Port/Hub Component, 1330, for use in accordance with the present invention.

FIG. 314 shows a bottom view of the USB Port/Hub Component, 1330, for use in accordance with the present invention.

FIG. 315 shows a perspective view of the USB Port/Hub Component, 1330, for use in accordance with the present invention.

FIG. 316 shows a sectional view of the USB Port/Hub Component, 1330, for use in accordance with the present invention.

FIG. 317 shows a front view of the Velcro® Loop Pad Component, 1340, for use in accordance with the present invention.

FIG. 318 shows a side view of the Velcro® Loop Pad Component, 1340, for use in accordance with the present invention.

FIG. 319 shows a perspective view of the Velcro® Loop Pad Component, 1340, for use in accordance with the present invention.

FIG. 320 shows a sectional view of the Velcro® Loop Pad Component, 1340, for use in accordance with the present invention.

FIG. 321 shows a front view of the Velcro® Dual Lock Pad Component, 1350, for use in accordance with the present invention.

FIG. 322 shows a perspective view of the Velcro® Dual Lock Pad Component, 1350, for use in accordance with the present invention.

FIG. 323 shows a side view of the Velcro® Dual Lock Pad Component, 1350, for use in accordance with the present invention.

FIG. 324 shows a sectional view of the Velcro® Dual Lock Pad Component, 1350, for use in accordance with the present invention.

FIG. 325 shows a front view of the Velcro® Dual Lock Pad With Wire Access Hole Component, 1360, for use in accordance with the present invention.

FIG. 326 shows a side view of the Velcro® Dual Lock Pad With Wire Access Hole Component, 1360, for use in accordance with the present invention.

FIG. 327 shows a perspective view of the Velcro® Dual Lock Pad With Wire Access Hole Component, 1360, for use in accordance with the present invention.

FIG. 328 shows a sectional view of the Velcro® Dual Lock Pad With Wire Access Hole Component, 1360, for use in accordance with the present invention.

FIG. 329 shows a front view of the Hanging Hook Accessory, 2250, for use in accordance with the present invention.

FIG. 330 shows a side view of the Hanging Hook Accessory, 2250, for use in accordance with the present invention.

FIG. 331 shows a rear view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 332 shows a side view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 333 shows a top view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 334 shows a front view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 335 shows a sectional view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 336 shows a sectional view of the Paper Tray Accessory, 2260, for use in accordance with the present invention.

FIG. 337 shows a side view of the Paper Tray Accessory, 2260, drawn showing how they stack and key into each other using the Foot Aligning Pocket, 115, for use in accordance with the present invention.

FIG. 338 shows a top view of the Paper Tray Accessory, 2260, with the Desk Top Organizing Apparatus, 110D, keyed to the top of the tray using the Foot Aligning Pocket, 115, for use in accordance with the present invention.

FIG. 339 shows a front view of the Paper Tray Accessory, 2260, with the Desk Top Organizing Apparatus, 110D, keyed to the top of the tray using the Foot Aligning Pocket, 115, for use in accordance with the present invention.

FIG. 340 shows a side view of the Paper Tray Accessory, 2260, with the Desk Top Organizing Apparatus, 110D, keyed to the top of the tray using the Foot Aligning Pocket, 115, for use in accordance with the present invention.

FIG. 341 shows two side views of the Folder Rack Accessory, 2320, one shown with a letter size folder in the rack and the other is shown with a legal size folder in the rack for use in accordance with the present invention.

FIG. 342 shows a front view of the Folder Rack Accessory, 2320, for use in accordance with the present invention.

FIG. 343 shows a side view of the Folder Rack Accessory, 2320, for use in accordance with the present invention.

FIG. 344 shows an embodiment of a Desk Top Organizing System, 001D, a Computer Monitor, 63, with an embodiment of a Monitor Organizing System, 001M, attached. Both apparatuses, 110D8 and 110M, shown have their Component/Image Receiving Sections, 120, installed with various Components, 1000, for use in accordance with the present invention.

FIG. 345 shows a front view of the Bud Vase Version II Accessory, 2300, for use in accordance with the present invention.

FIG. 346 shows a side view of the Bud Vase Version II Accessory, 2300, for use in accordance with the present invention.

FIG. 347 shows a sectional view of the Bud Vase Version II Accessory, 2300, for use in accordance with the present invention.

FIG. 348 shows a perspective view of the Bud Vase Version II Accessory, 2300, for use in accordance with the present invention.

FIG. 349 shows a top view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 350 shows a front view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 351 shows a side view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 352 shows a bottom view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 353 shows a perspective view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 354 shows a sectional view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention. This section shows all that you may see because it is transparent.

FIG. 355 shows a sectional view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 356 shows a sectional view of the cap, 41, for use in accordance with the present invention.

FIG. 357 shows a sectional view of the Bud Vase Version I Accessory, 2290, for use in accordance with the present invention.

FIG. 358 shows a front view of the Friction Frame Component, 1420, inserted into a cavity, 140, and pressed down to the Component/Image Receiving Area, 130, for use in accordance with the present invention.

FIG. 359 shows a rear view of the Friction Frame Component, 1420, for use in accordance with the present invention.

FIG. 360 shows a front view of the Friction Frame Component, 1420, inserted into a cavity, 140, and pressed down to the Component/Image Receiving Area, 130, which in this figure an image, 16, is placed in the image receiving area below the friction frame for use in accordance with the present invention.

FIG. 361 shows a side view of the Friction Frame Component, 1420, for use in accordance with the present invention.

FIG. 362 shows a sectional view of the Friction Frame Component, 1420, for use in accordance with the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The drawings show aspects of the invention. The organizing system, 001, is comprised of one or more organizing apparatuses, 110 and components, 1000. The organizing system, 001, may also be further comprised of one or more system accessories, 2200. Assembled examples of two apparatuses, 110, and components, 1000, can be seen on FIG. 344. This is a very limited example because of the countless variations of apparatuses and components possible.

An organizing apparatus, 110, is comprised of a component receiving section, 120, enabled for receiving at least one component. The component receiving section, 120, is comprised of one or more component receiving areas, 130. The component receiving area, 130, is comprised of a cavity, 140.

An organizing apparatus, 110, is further comprised of an engaging section, 160. The embodiment of the engaging section, 160 varies based on the use of the organizing apparatus, 110. Examples include, but not limited to:

-   -   For placement on a horizontal surface     -   For placement on one of the top corners of a monitor     -   For placement in a corner     -   For placement on a vertical surface     -   For placement on another organizing apparatus     -   For placement on a cubical dividing wall

Components, 1000, may be in the form of a single molded unit, or may be comprised of a separate component base section, 1001, and component accessory section, 1004, with component accessory to component base securing means, 1002, for attaching these two parts, or may be a photo mat and a friction ring, and the like. Component accessory to component base securing means, 1002, may be one or more of the following: adhesive, magnet, hook and loop fasteners, thermal bond, screws and the like. Components are secured into the cavity, 140, by component base to apparatus securing means, 1003, which can be one or more of the following: snap-in head plungers, 1003S, friction fit, 1003F, adhesive, 1003A, hook and loop fasteners, 1003V, quick release clamps, 1003Q, screws, 1003SC, bolts, 1003B, tapered pin and hole friction fit, 1003T, friction rings and the like. The base of a component may be further comprised of at least one punch out hole.

System accessories, 2200, are comprised of, but not limited to, a cord & cable clip accessory, 2210, a regular friction ring accessory, 2220, a thick friction ring accessory, 2230, a special friction ring accessory, 2240, a hanging hook accessory, 2250, a paper tray accessory, 2260, a Velcro® dual lock tab accessory, 2270, and a Velcro® hook, loop button accessory, 2280, bud vase 1 accessory, 2290, bud vase 2 accessory, 2300, vertical disk caddy reconfigured accessory, 2310, and folder rack accessory, 2320.

One embodiment of the cavity, 140, as shown in FIG. 1 is further comprised of at least one securing hole, 141. The cavity, 140, is further comprised of an access hole 143, and a punch-out section, 144, which circumscribes the access hole, 143, such that when the circular punch-out section, 144, is removed, the access hole, 143, is enlarged.

One embodiment of the organizing apparatus, 110, is a monitor organizing apparatus, 110M, as shown in FIG. 56, enabled to receive one or more components, 1000. Another embodiment of the organizing apparatus, 110, is a desktop organizing apparatus, 110D, as shown in FIG. 32, FIG. 36, FIG. 40, FIG. 44, enabled to receive one or more components, 1000. Another embodiment of the organizing apparatus, 110, is a multipurpose organizing apparatus, 110V, as shown in FIG. 75, designed to attach or adhere to a variety of surfaces, such as the monitor organizing apparatus, the desktop organizing apparatus, into a corner, a mirror, wall, refrigerator, the side of a monitor, and the like. Another embodiment of the organizing apparatus, 110, is a wall hanging organizing apparatus, 110W, as shown in FIG. 102, designed to hang on a wall.

An organizing apparatus, 110, is disposed for displaying logos, slogans, and the like. Each organizing apparatus, 110, is designed to harmonize with the other organizing apparatuses, as well as with the system accessories. Component Base to Apparatus Securing Means, 1003, is comprised of snap-in plungers, sheet metal screws, hook and loop pads, double stick foam tape, adhesive strips, friction fit, friction rings, magnetic strips, quick release clamps, and the like. The preferred material for the organizing apparatuses, 110, is ABS plastic and the preferred method of making is plastic injection molding. Other thermal forming processes and other plastic materials can be used.

Different embodiments of the organizing apparatuses are, but are not limited to, the monitor organizing apparatus, 110M, the desk top organizing apparatus, 110D (with one, three, four, six or eight component receiving areas, 130), the multipurpose organizing apparatus, 110V, (enabled to attach to either the monitor organizing apparatus, 110M, the desk top organizing apparatus, 110D, or to a corner or a vertical surface) and the wall hanging organizing apparatus, 110W.

The preferred embodiment of the multipurpose organizing system, 001V, is comprised of a multipurpose organizing apparatus, 110V (FIG. 75), components, 1000, three ⅛″ thick friction rings (O-rings), where the friction rings are 70 Duramater Black #2-241 BUNA-N O-Rings, two 10⅞″ strips of double sided adhesive foam tape, one hang flat cleat, one wedge connector, 790, one or more die cut 0.005″ polyester film used as an image template for cutting photos. The multipurpose organizing apparatus, 110V, is further comprised of a multipurpose organizing apparatus component receiving section, 120V, and multiple multipurpose organizing apparatus engaging sections, 160V.

The preferred embodiment of the monitor organizing system, 001M is comprised of a organizing apparatus, 110M (FIG. 56), comprised of a component receiving section that is roughly in the shape of a right angle, 3 component receiving areas on each of the two legs of the angle, a curved logo area where the two legs meet, six ⅛″ thick friction rings (O-rings), Specs: 70 Duramater Black #2-241 BUNA-N O-Rings, three mated pairs of #250 Dual Lock Velcro® Specifically #SJ 3540 (rubber base adhesive) 0.750″×1″ for attaching to a monitor, one pair of #250 Dual Lock Velcro® mated back to back (adhesive to adhesive) (Riser Block) 0.750″×1″. For the circumstances where both the vertical and horizontal frame around the monitor is deeply curved, then the riser block is used on the inside corner to relieve stress on the monitor organizing system. FIG. 64, FIG. 65, FIG. 66, FIG. 67, FIG. 68, and FIG. 69 shows an embodiment of the Monitor Organizing Apparatus, 110M, wherein the Monitor Organizing Apparatus is made in sections rather than one piece.

The preferred embodiment of the Desk Top Organizing Apparatus-Solo, 110D1 (FIG. 44), enabled to receive only one component, is comprised of a single molded unit having a bottom section, 111 with four feet, 112 disposed on the bottom side, 113 of the bottom section, 111, a support section, 114, a component receiving section, 120, enabled for receiving components, 1000, such as either a photo frame component, a miniature speaker component, a universal cradle component that can hold a cell phone, PDA, and the like. In one embodiment the bottom side, 113, is weighted for stability.

The Desk Top Organizer Apparatus-Three, 110D3 (FIG. 40), enabled to receive three components, is comprised of a organizing apparatus having three parts, a base part with four feet disposed on the bottom side, a support part, a component receiving section part enabled for receiving components wherein the component receiving areas disposed in the component receiving section are positioned from the top to the bottom of the component receiving section in one row. Each part has the appropriate male and female mating connections to allow for compact shipping and easy assembly. In one embodiment the bottom side, 113, is weighted for stability.

The Desk Top Organizer Apparatus-Six, 110D6 (FIG. 36), enabled to receive six components, is comprised of a organizing apparatus having three parts, a base part with four feet disposed on the bottom side, a support part, a component receiving section part enabled for receiving components wherein the component receiving areas disposed in the component receiving section are positioned from the top to the bottom of the component receiving section in two rows of three component receiving areas each. Each part has the appropriate male and female mating connections. In one embodiment the bottom side, 113, is weighted for stability.

The preferred embodiment of the Desk Top Organizer Organizing Apparatus-Eight, 110D8 (FIG. 32), enabled to receive eight components, is comprised of an organizing apparatus having three parts, a base part with four feet disposed on the bottom side, a support part, a component receiving section part with eight component receiving areas. Each part has the appropriate male and female mating connections to allow for compact shipping and easy assembly. In one embodiment the bottom side, 113, is weighted for stability.

The preferred embodiment of each component is a three-dimensional piece that is made to fit into the receiving areas of the organizing apparatuses, allowing the user to individualize the component system. Components can be decorative, functional, and even electronic. There are many thermal forming processes that may work and many plastics that can be used to manufacture these components, 1000. The preferred method of manufacturing is plastic injection molding and the preferred material is ABS plastic. There may be many different ways of attaching the components, 1000, to the particular organizing apparatus, 110. These ways of attachment, 1003, include, but are not limited to, Snap-in Plunger, 1003S, Friction Fit, 1003F, Adhesive, 1003A, Screws, 1003SC, Bolts, 1003B, Quick Release Clamps, 1003Q, Velcro®, 1003V, 3M's Command Adhesive®, 1003M, among others.

Examples of embodiments of components, 1000, follow below.

Audio station component, 1010: the preferred embodiment (FIG. 121) is comprised of hooks to hang lightweight earphones or ear buds, a microphone that links to a computer and an Audio-In and Audio-Out that links to a computer. The Audio-In can be connected to a MP3 player or some other device that records and/or has playback capabilities, such as some PDAs. This player or device could be linked with a computer and its speakers. Audio-Out is for ear phones/buds to listen to recordings through the computer or for a telephone headset if the user's computer is capable of taking calls over the phone line or through a high-speed Internet connection. This component links to the computer through a USB cable to the computer and/or an audio cable to the speaker's amp's Audio-In port. Software is included to aid in the linking of the component to the computer. The hooks on this Component are molded as part of the component base section. Because this component has cables and/or cords, it includes pressure sensitive adhesive (PSA) cord/cable clips for cable management. It is easy to install by just inserting the component into an available receiving area in the organizing apparatus and securing the component by pushing in the snap-in plunger buttons disposed on the back side of the component. (Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp). Plug in the USB & audio cables and install software. The electronics are installed within the component when it is manufactured.

Bud vase component version I, 1020: the preferred embodiment (FIG. 128) is comprised of a clear plastic vile bud vase, enabled to hold the stem of either a real or silk flower. The vile bud vase is removeably attached in order be removed for adding water or cleaning as needed. Additionally, in one embodiment the vile is rotateably attached to allow the user to place the flower in a particular place that is out of the way of another Component, 1000, or photo. Also, in another embodiment the vile is attached using Dual Lock Velcro® and/or the clip that holds the vile is held using Dual Lock Velcro®. The vile has a clear very flexible cap that has a ⅛″ hole in the center to allow for the securing of the flower stem and if water is used (real flower only), the cap will make it more difficult to drip water from the vile when handling during installation. The ⅛″ hole in the cap has the ability to stretch to a much larger hole to accommodate the different size flower stems and hold them securely because of the flexibility of the material the cap is made from. It is easy to install by just inserting into the empty Component Receiving Area in the Organizing apparatus and secure by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. If a real flower is used, fill the vile ⅔ full of water, snap on plastic cap, insert the flower stem into the vile through the cap, and carefully slide the vile into the holder from above, then carefully tip the vile to orient the flower bud into location. The vile is to be mounted to the side of the component base allowing a significant amount of the base to be used for other purposes, and in this case a smaller photo/image pocket with a friction ring that could be used for a photo or for inserting a mirror or even making the entire component base a mirror. The plastic cap can be injection molded out of very flexible polyurethane. Other materials for the vile include, but are not limited to, glass or injection-molded acrylic.

Bud vase component version II, 1430: the preferred embodiment (FIG. 128) is comprised of a clear plastic vile bud vase, enabled to hold the stem of either a real or silk flower. The vile bud vase is removeably attached in order be removed for adding water or cleaning as needed. Additionally, in one embodiment the vile is rotateably attached to allow the user to place the flower in a particular place that is out of the way of another Component, 1000, or photo. Also, in another embodiment the vile is attached using Dual Lock Velcro® and/or the clip that holds the vile is held using Dual Lock Velcro®. The vile has a clear very flexible cap that has a ⅛″ hole in the center to allow for the securing of the flower stem and if water is used (real flower only), the cap will make it more difficult to drip water from the vile when handling during installation. The ⅛″ hole in the cap has the ability to stretch to a much larger hole to accommodate the different size flower stems and hold them securely because of the flexibility of the material the cap is made from. It is easy to install by just inserting into the empty Component Receiving Area in the Organizing apparatus and secure by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. If a real flower is used, fill the vile ⅔ full of water, snap on plastic cap, insert the flower stem into the vile through the cap, and carefully slide the vile into the holder from above, then carefully tip the vile to orient the flower bud into location. The vile is to be mounted to the side of the component base allowing a significant amount of the base to be used for another purpose. In this component the purpose would be a 2″ dial face clock that would insert into a pocket in the base with the use of friction nibs. The plastic cap can be injection molded out of very flexible polyurethane. Other materials for the vile include, but are not limited to, glass or injection-molded acrylic.

Calculator component, 1030: the preferred embodiment (FIG. 144) is comprised of an off the shelf calculator. The preferred component securing means, 1002, is a strong adhesive on the back of a thin plastic sheet magnet (0.019″). This enables releasable attachment of the calculator for remote use. The preferred calculator is a Radio Shack item number 65-921 or similar. This particular calculator is chosen because of its size and the back is made of thin sheet metal allowing for the magnet to hold it securely. This method of attachment is preferred because of its high tech feel. Alternate embodiments may use hook and loop fasteners to achieve the releasable attachment function. It is easy to install by just inserting the component, 1030, into the empty component receiving area in the organizing apparatus and securing it by pushing in the four snap-in plunger buttons. Then place the calculator on the magnetic surface. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Caller ID display component, 1040: the preferred embodiment (FIG. 152) is comprised of a Caller ID display. The component is further comprised of access means to a port enabled for transmitting Caller ID information. If used on the computer, software is included to aid in the linking of the Caller ID display component, 1040, to the computer. The Caller ID display component, 1040, has a “new call” indicator light, and on the LCD screen the following could be seen: the number of ID's stored, time and date of the calls, and the caller's phone number and name. The Caller ID Display preferably has three buttons: an erase button to remove ID's from the list, and a scroll up button and a scroll down button for navigating through the stored ID's. These features are the preferred features, but the Caller ID display component, 1040, has the potential to add more features as they become available from the phone companies etc. Because this component has cables or cords, PSA cord/cable clips are included for cable management. It is easy to install by just inserting the Caller ID display component, 1040, into an empty image/component receiving area, 130, in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB cable and/or the phone line and installs software. Caller ID service may be required. The electronics are installed within the Caller ID display component, 1040.

Camera component, 1050: the preferred embodiment (FIG. 156) is comprised of a camera eye for conferencing, etc. over the Internet. The camera is enabled to pivot in any direction. The camera component, 1050, is further comprised of a directional microphone. The camera component, 1050, is connected through a standard USB cable. Software is included to aid in the linking of the camera component, 1050, to a computer. Because this component has cables or cords, PSA cord/cable clips are included for cable management. It is easy to install by just inserting the camera component, 1050, into an empty component receiving area in the organizing apparatus and securing by pushing in the two snap-in plunger buttons. The user plugs in the USB & audio cables and installs software. The user adjusts the lens to the preferred direction. The electronics are installed within the camera accessory, 1050.

Card holder component, 1060: the preferred embodiment (FIG. 160) is comprised of a business card holder tray, attached to the front of the component base section. There is also a clip above the tray, mounted to the component base section, to hold an individual business card while the user is copying info from (data entry), or for the user's credit card while filling out a purchasing form to buy that item on the internet or to hold other items like postal stamps etc. It is easy to install by just inserting the card holder component, 1060, into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user adds cards or other items as appropriate.

Cell phone clip component, 1070: the preferred embodiment (FIG. 162) is comprised of a universal hanging swivel clip mounted to the front of the component base section. It is further comprised of an access hole to accommodate a charging and/or linking cable(s). Because the cell phone clip component, 1070, has cables or cords, PSA cord/cable clips are included for cable management. It is easy to install by just inserting the cell phone clip component, 1070, into an empty component receiving area on an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user then hangs a cell phone on the clip.

Dial clock component, 1080: the preferred embodiment (FIG. 169) is comprised of a battery-operated, dial face clock. The dial clock component's base is formed to have a round cavity receiving area, so that the actual clock easily slides into for a friction fit. No tools are needed to change the clock batteries. To install the dial clock component, 1080, remove the clock from the dial clock component, 1080, by pushing on it from the back through the access hole. Install the base by just inserting the dial clock component, 1080, into the empty component receiving area on the organizing apparatus and secure by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. Then install the batteries into the back of the dial clock component, 1080, set it by spinning the wheel next to the battery compartment, then push it into the round component receiving area, 130, in the dial clock component, 1080. The clock is held in the dial clock component, 1080, by friction or friction ribs. The electronics are installed within the dial clock component, 1080.

Digital clock component, 1090: the preferred embodiment (FIG. 173) is comprised of a large, battery-operated, easy-to-read digital display clock attached to the front of the component bottom section. It also has the ability to give the seconds, day, and date. It is easy to install by first installing the batteries into the battery compartment, then inserting the digital clock component, 1090, into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user sets the clock by pressing the two buttons on the face of the digital clock component, 1090. The electronics are installed within the digital clock component, 1090.

Friction frame component, 1420: the preferred embodiment (FIG. 358-FIG. 362) is comprised of unusual shaped profiles similar to actual picture frames that fit into the component/image receiving area, 130. It could also fit into the pocket and wrap outside the cavity, 140, onto the Component/Image receiving section, 120, of the apparatus. This could be in the shape of the pocket using different colors, even with the possibility of different graphic patterns as long as the friction on the cavity is kept. The edge of the ring that touches the inside wall of the cavity, and creates friction may utilizes friction nibs, 65, to create the friction needed to hold the ring in place. These friction nibs will have to be sized slightly larger than the cavity in order to get the proper friction to hold the photo/image into place. To install, first insert into the cavity, 140, the photo/image, 16, and follow with the friction frame component, 1420, and press into place. To remove, just pull it out. There are many thermal forming processes that may work and many plastics that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding out of a soft semi flexible plastic.

Horizontal disk caddy component, 1100: the preferred embodiment (FIG. 177) is comprised of a CD/DVD holder, molded to the front of the component bottom section that holds five CDs/DVD disks individually storing them horizontally without jewel cases for quick one-handed insertion and retrieval. It keeps the disks used most often, handy and off the User's desk surface which also protects them from scratches. The horizontal disk caddy component, 1100, can be made to hold more or less disks than shown. The disks are held in place mainly with the use of gravity. The slot that receives the disk is made slightly loose and out of a soft non-abrasive materiel (possibly a soft plastic or rubber) so as not to scratch the disk. The slots preferably have periodic openings along the bottom to allow debris that may make its way into the slots to have an easy way out to keep the slots free of foreign particles. It is easy to install by just inserting the horizontal disk caddy component, 1100, into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. Then the user just drops the CD/DVD's into the slots for easy one-handed use of putting the disks into the holder and with one hand retrieving it for use.

Vertical disk caddy component, 1110: the preferred embodiment (FIG. 178) is comprised of a CD/DVD holder, attached to the front of the component bottom section, that holds five CD's/DVD disks individually storing them vertically without jewel cases for quick one-handed insertion and retrieval. The vertical disk caddy component, 1110, can be made to hold more or less disks than shown. The vertical disk caddy component, 1110, can also be made to assemble another way (FIG. 194) to be used without the organizing apparatus, 110, and sit on the desk alone or to be converted to from holding the disks vertically to holding them horizontally (FIG. 200). The Vertical disk caddy component, 1110, keeps the disks used most often, handy, and keeps them off the user's desktop, which also protects them from being scratched by sliding around on the desk. The vertical design is possibly a better look and could be more versatile than the horizontal design. The vertical disk caddy component, 1110, holds the disks in place mainly with the use of gravity. The slot that receives the disk is preferably made for a slightly loose fit and out of a soft non-abrasive materiel (possibly a soft plastic or rubber) so not to scratch the disk. The slots preferably have periodic openings along the bottom to allow debris that may make its way into the slots to have an easy way out to keep the slots free of foreign particles. It is easy to install by just inserting the vertical disk caddy component, 1110, into an empty component receiving area, 130, in an organizing apparatus, 110, and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Document holder component, 1120: the preferred embodiment (FIG. 204) is comprised of a sheet holder insert that attaches to the front of a component base section, 1001, and holds multiple sheets of paper to allow the person typing information (data entry) a better view of the document. The preferred embodiment of the document holder accessory, 1120, is comprised of a swing arm with a clip on the end to hold the documents. The ability to swing the arm is important to allow the user more placement options. The document holder accessory, 1120, is further comprised of a clip under the swing arm support to bold small pieces of paper, business card, etc. It is easy to install by just inserting the document holder component, 1120, into an empty component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Dry erase board component, 1410: the preferred embodiment (FIG. 208) is comprised of a base plate with a thin sheet of dry erase board material adhered to the front surface. This dry erase board component, 1410, is preferably held in a component receiving area using two snap-in plungers. To use, write on the board with a dry erase marker and to erase, just wipe board with soft cloth or felt. It is easy to install by just inserting the dry erase board component, 1410, into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Fan component, 1130: the preferred embodiment (FIG. 210) is comprised of a small electric fan, powered via USB cable or a battery operated fan that would have vinyl blades (or another soft material). The soft blades on the fan would not hurt if they came in contact with the user while spinning, so a protective grill would not be unnecessary. The preferred embodiment allows the fan to swivel slightly to direct the airflow. If the fan component, 1130, is powered via a USB cable, it includes pressure sensitive adhesive (PSA) cord/cable clips for cable management. It is easy to install by just inserting the fan component, 1130, into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. It preferably is turned on and off by a push button switch. Then the user directs the fan in the desired direction. The fan blades are preferably die-cut from vinyl. The electronics are installed within the component.

Flag dispenser component, 1140: the preferred embodiment (FIG. 215 and FIG. 219) is comprised of a flag dispenser component, 1140, that holds the 3M® sticky flags, or equivalent. The Post-it® style flags are slid in the dispenser from the side (edge) before the flag dispenser component, 1140, is installed into an organizing apparatus. 3M's flags are sold in consistent dimensions since 3M® has their own dispenser which requires the dimensions to remain the same to work. Another embodiment attaches the flags with adhesive to a die-cut card that fits a component receiving area and the card is attached with adhesive; with this configuration the user will have to buy this custom brand as a refill. It is easy to install by just inserting the flag dispenser component, 1140, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Flash memory card reader/writer component, 1150: the preferred embodiment (FIG. 225) is comprised of a flash memory card reader/writer, with eight different types of flash memory card receptacles in one reader and can be installed facing any position (facing up down or to a side). With so many electronics today using flash memory cards like digital cameras, video cameras, PDA's, MP3's, and devices using them for memory back-ups, etc., an 8 in 1 flash memory card reader/writer is an essential addition to many computers. It's just one less thing on the desk with this handy component. Software is included to aid in the linking of the flash memory card reader/writer component, 1150, to a computer. It is connected through a USB port and includes PSA cord/cable clips for cable management. It is easy to install by just inserting the flash memory card reader/writer component, 1150, component into an empty component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB & audio cables and installs the software. The user then inserts a memory card into the appropriate slot—the operating system, e.g. Windows, prompts the user to open it. The flash memory card reader/writer component, 1150, is designed to be installed facing any direction, allowing the user great flexibility. The electronics are installed within the flash memory card reader/writer component, 1150.

Hanging hook component, 1160: the preferred embodiment (FIG. 226) is comprised of two hanging hooks arranged side by side which can be used to hang most anything of suitable size and weight that will fit over or be able to catch onto the hooks, e.g., headphones, car keys, and the like. It is easy to install by just inserting the hanging hook component, 1160, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. In the preferred embodiment the hooks are made of ABS plastic.

LCD screen component, 1170: the preferred embodiment (FIG. 230) is comprised of a digital LCD screen insert that is mounted to the component base section or the LCD Screen is made to the size of the base component and enabled to show a photo/image that could be changed electronically at any time or loops a series of photos at a particular time interval. In another embodiment, the LCD screen component, 1170, serves as a second display for a computer. Software is included to aid in the linking to the computer. It is linked to the computer through a USB port and includes PSA cord/cable clips for cable management. It is easy to install by just inserting the LCD screen component, 1170, into an empty component receiving area in an organizing apparatus and secured by two screws. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB & audio cables and installs the software. The electronics are installed within the LCD screen component, 1170.

Magnetic holder component, 1400: the preferred embodiment (FIG. 237) is comprised of a base plate with a thin plastic sheet magnet material (approx. 0.030″) adhered to the front surface. This magnetic holder component, 1400, is preferably held in a component receiving area using removable adhesive tape. The magnetic surface allows the user to stick all kinds of lightweight ferrous metal objects, examples being paper clips, binder clips, etc. It is easy to install by peeling the tape liner off the adhesive tape mounted on the back of the component and inserting the magnetic holder component, 1400, into an empty component receiving area on an organizing apparatus. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Mirror component, 1180: the preferred embodiment (FIG. 241) is comprised of an acrylic mirror insert attached with removable double stick adhesive tape. The small vanity mirror can be used for checking make-up, food in teeth, etc. It can also be used as a boss watcher mirror to keep an eye on who is watching who—for the guilty and the paranoid. It is easy to install by peeling the tape liner off the adhesive tape mounted on the back of the component and inserting the mirror component, 1180, into an empty component receiving area in an organizing apparatus and securing the back of the component base section to the component receiving area with double stick tape. This component could also be attached using screws or a snap-in fitting. Another embodiment uses a mirror insert made of glass.

Photo/Image mat component, 1190: the preferred embodiments (FIG. 242) is comprised of a photo/picture (image) mat that gives photos a more finished look and gives the user the ability to customize his/her organizing apparatus even more by adding color or a theme to the product. These mats can be printed with themed images like sports, holidays, flowers, wood burl, or just a solid color. They can be made in sets of six of all the same or in series like sports, holidays, etc. The user installs by first inserting the photo/image into a component receiving area, followed by the image mat, and securing both with the friction ring. These can be cheaply made by printing the image/color and then die cutting them. They can be made out of heavy paper, card stock, thin plastic film, wood veneer, or even thin metal. In most cases the images on the mats need to be small and not too busy so as not to compete with the photo.

Photo/Image mats—consumer printed component, 1200: the preferred embodiment (FIG. 243 and FIG. 244) is comprised of a set of photo/picture mats to give the photos a more finished look and to give the user the ability to customize an organizing apparatus even more by adding color or a theme to the product. The product breakdown is a sheet or multiple sheets of approximately 100# white card stock that has pre die cut photo/image mats held in matrix by minuscule connections to the sheet. The user that buys the sheet(s) is directed to a Web site where the user can pick from many possible themes and designs that they can print on the die cut card stock on their own printer. It would be as simple as logging onto the Web site, click on the link to the Photo/Image Mat page, load the card stock into their printer, double click on the favored design, and the die-cut card stock will print. Then the user detaches the photo/image mats from the sheet and installs in front of the photo image followed by the friction ring. The advantage of this product over the preprinted product is the available designs and the ability for the user to create with his/her own designs to print. With this product only one retail facing is needed and the user will have unlimited possibilities. Another option is to print one side of the stock with a simple design like leather look or solid color in which the user can use as is or he/she may log onto the Web site and print the other side as described above. The Photo/Image mat theme may include, but is not limited to: holiday themes, birthday themes, party themes, Mardi Gras themes, sports themes, patriotic themes, floral, leather, wood, tie die, blue jean, patterns, textures, solid colors etc. The use of photo/image mats enables the user to have just one more level of customization. These mats can be printed with themed images like sports, flowers, wood burl, or just a solid color. They could be sold in sets of six of all the same or in series like sports, holidays, etc. If the user has computer graphic skills, he/she can create their own designs. To install, the user first inserts the photo/image into the component receiving area, 130, followed by the image mat, and secures both with a friction ring.

Small pocket, 1210: the preferred embodiment (FIG. 245) is comprised of a small pocket, molded to the front of the component base section, creating a component that has a versatile storage area for anything laying around the user's desk, such as paper clips, candy, white out, trinkets, tools, craft supplies, etc. Depending on which room it may be in, this component could hold jewelry, cotton balls, makeup etc. The preferred component receiving area, 130, dimensions are approximately 3.3″ wide×1.35″ depth×1.7″ height. It is easy to install by just inserting the small component receiving area, 130, component, 1210, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Medium pocket component, 1220: the preferred embodiment (FIG. 246) is comprised of a of a medium pocket, molded to the front of the component base section, creating a component that has a versatile storage area for anything laying around a desk that is small enough to fit into it like paper clips, candy, white out, trinkets, tools, craft supplies, etc. Depending on which room it may be in, this component could hold jewelry, cotton balls, makeup, tools, craft supplies, etc. The preferred medium pocket component, 1220, dimensions are approximately 3.3″ wide×2.2″ depth×1.7″ height. It is easy to install by just inserting the medium pocket component, 1220, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Large pocket component, 1230: the preferred embodiment (FIG. 247) is comprised of a large pocket, molded to the front of a component base section, creating a component that has a versatile storage area for anything laying around a desk that is small enough to fit into it, such as paper clips, candy, white out, trinkets, tools, craft supplies, etc. Depending on which room it may be in, this component could hold jewelry, cotton balls, makeup, tools, craft supplies, etc. The preferred component receiving area, 130, dimensions are approximately 3.3″ wide×3.1″ depth×1.7″ height. It is easy to install by just inserting the large component receiving area, 130, component, 1230, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Tall pocket component, 1240: The preferred embodiment (FIG. 248) is comprised of a pencil holder which can also be used to hold any items of similar length, such as markers, pens, letter openers, scissors, tools, craft supplies, etc. The preferred embodiment uses the whole 3.5″ wide component capacity and the cup drops down slightly below the component receiving area, 130, so not to infringe too much above. The preferred component receiving area, 130, dimensions are approximately 3.3″ wide×1.47″ depth×3.36″ height. It is easy to install by just inserting the pens and more holder component, 1240, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

AM/FM radio component, 1380: the preferred embodiment (FIG. 265) is comprised of a component consisting of an AM/FM radio with a rear Audio-Out that could link to the computer and its speakers. It may have its own speaker(s) built in. It would have a headphone jack on the front with a small hook for the ear buds. Its antenna would be a wire plugged in through the back of the component. This component may link to the computer through a USB cable to the computer and/or an audio cable to the speaker's amp's Audio-In port. If linked to the computer, software would be included to aid in the linking. Because this component has cables and/or cords, it will include pressure sensitive adhesive (PSA) cord/cable clips for cable management. It is easy to install by just inserting the AM/FM radio component, 1380, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Satellite radio receiver socket & radio component, 1250: the preferred embodiment (FIG. 268) is comprised of a socket to receive the portable satellite receiver produced by companies such as XM Satellite Radio and/or Sirius Satellite Radio. This component is made to link to a computer's speakers. Software is included to aid in the linking of the Component to the computer. Because this component has cables or cords, PSA cord/cable clips are included for cable management. All of the advantages of satellite radio are available to the user: no Internet connection is needed; there are no buffering delays; no computer slow down; ability to see what is currently playing; song titles and artist names can be saved; alerts when favorite artists are playing on another channel; customizable displays to show favorite channels. This satellite radio receiver socket component, 1250, includes the receiver, antenna, USB Cable, audio cable and an installation CD-ROM containing the software. It is easy for the user to install by just inserting the satellite radio receiver socket component, 1250, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB & audio cables, sets up the antenna and installs the software. The user then activates the service with the satellite radio company. The electronics are installed within the satellite radio receiver socket & radio component, 1250.

Speaker component, 1260: the preferred embodiment (FIG. 274) is comprised of a set of speakers that is of the flat panel variety, available from several manufacturers, e.g., Guillemot. The speaker component, 1260, may be further comprised of a headphone jack port and a volume control knob. A user can have only one speaker component, but in order to have stereo will probably have two or more. This speaker component, 1260, is connected to a sound card and amp and includes PSA cord/cable clips for cable management. It is easy to install by just inserting the speaker component, 1260, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB & audio cables. The electronics are installed within the speaker component, 1260.

Sticky bulletin board component, 1270: the preferred embodiment (FIG. 276) is comprised of a sticky bulletin board. The preferred embodiment uses 3M's Post-it brand Self-Stick Bulletin Board, long lasting sticky surface, Item #558. When the surface becomes contaminated with loose paper fibers or dust, the user wraps 3M's Scotch #810 magic tape around a finger, adhesive side out, and pats the contaminated areas to clean. This sticky bulletin board component, 1270, is preferably held in a component receiving area using double stick tape. The top surface of the sticky bulletin board component, 1270, is slightly above the top surface of a component receiving section to ensure a stress free bond on the surface of the bulletin board material. To use, the user places any piece of paper or small cardstock against the surface and presses slightly. To remove the user just pulls the piece of paper or small cardstock off.

Sticky notes component, 1280: The preferred embodiment (FIG. 282) is comprised of a 3″×3″ Post-it style pad, pre-mounted to a card for easier installation. The user can stick any equivalent sticky pad to it as a refill. The card can be die-cut vinyl or even the resin coated card stock. The card itself is preferably attached with double stick tape. To use the pad, the user writes on it in-place on the organizing apparatus or pulls off the outer most note paper off the top of the pad, writes on it and sticks it to any smooth or semi smooth surface.

Tape dispenser version 1 “3M” component, 1290: the preferred embodiment (FIG. 284) is comprised of a “Scotch Pop-up Tape Strip Dispenser”. The dispenser's docking bracket is attached to a rectangular plastic base, 23. The rectangular base is slid in the base component, 215, from the side (edge) before the base component is installed into an organizing apparatus. This is the same base component used in the flag dispenser component. In turn, a 1″ 3M sticky flags flag cartridge can also be included to finish the look of the component. Another embodiment is to attach the “Scotch Pop-up Tape Strip Dispenser” and flag cartridge with adhesive to a die-cut card that fits the component receiving area, and the card is attached with adhesive. It is easy to install by just inserting the base component (after the tape and flag dispensers are slid in from the edge) into an empty component receiving area on an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp.

Tape dispenser version 2 component, 1370: the preferred embodiment (FIG. 290) is comprised of a tape dispenser component that accepts standard ½″ and ¾″ refill rolls. It is a compact version of the large desktop type dispensers available today. This component holds the roll of tape perpendicular to the component base plate. It is easy to install by just inserting the tape dispenser version 2 component, 1370, into an empty component receiving area of an organizing apparatus and securing by pushing in the snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user just slides his/her index finger under the extended tape, grips, pulls off what is needed and tears the tape against the serrated tear bar of the dispenser.

Tape dispenser version 3 component, 1300: the preferred embodiment (FIG. 295) is comprised of a tape dispenser component that accepts standard ½″ and ¾″ refill rolls. This component holds the roll of tape parallel to the component base plate instead of perpendicular. It is extremely versatile in that the component can be attached to face any of the four possible orientations and the roll of tape can be placed into the component on either of its sides, enabling the adhesive to face either direction because of the serrated tear bar is serrated on both sides. To load the tape onto the component the user unscrews the tape dispenser's hold down thumbscrew by using his/her thumb and index finger and twisting it counter clockwise until it is removed. The user places the tape over and onto the raised round protrusion. If using the ½″ tape, the user removes the spacer on the hold down thumbscrew. If using the ¾″ tape, the user leaves the spacer in place and screws the hold down thumb screw clockwise until snug. The user extends the end of the roll of tape to the serrated tear bar. It is now ready to install into a component receiving area. It is easy to install by just inserting the tape dispenser version 3 component, 1300, into an empty component receiving area of an organizing apparatus and securing by pushing in the snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user just slides his/her index finger under the extended tape, grips, pulls off what is needed and tears the tape against the serrated tear bar of the dispenser.

Task light version I component 1310: the preferred embodiment (FIG. 300) is comprised of a light fixture with two ultra bright LEDs that have focus lenses to aid in directing and intensifying the light. The light fixture itself pivots on the base of the task light component, 1310, to allow for directing of the light where needed. Three AAA batteries stored in the battery compartment within the base of the task light component, 1310, will last for about 50 hours of use. Another embodiment includes a light fixture powered by a computer via an USB cable connection. The task light is for the user who works into the night on the computer and suddenly needs light to write a note; the user turns on the task light and tilts it downward to see a notepad. If this component is USB powered, it includes pressure sensitive adhesive (PSA) cord/cable clips for cable management. It is easy to install by just inserting the task light component, 1310, into an empty component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user just slides the switch to the on position and directs the light onto the desired location. When done, the user slides the switch to the off position. The electronics are installed within the task light component, 1310.

Task light version II component, 1390: the preferred embodiment (FIG. 303) is comprised of an ultra bright LED that has a focus lens to aid in directing and intensifying the light. The light fixture itself is a clip that will accept the LED fixture that is attached to a small arm that will pivot on the base of the component to allow for directing of the light where needed using a ball and socket mechanism, 116. The LED would be powered by the computer via an USB cable connection. The task light is for that person who works into the night on the computer and suddenly needs light to write a note, he turns on the task light and tilts it downward to see his notepad. Because this component is USB powered, it will include pressure sensitive adhesive (PSA) cord/cable clips for cable management. It is easy to install by just inserting the task light version II component, 1390, into an empty component receiving area in an organizing apparatus and securing by pushing in the two snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user just pushes in the on/off switch to turn it on and directs the light onto the desired location. When done, the user pushes in the on/off switch to turn it off. The electronics are installed within the task light version II component 1390.

Universal cradle component, 1320: the preferred embodiment (FIG. 310) is comprised of a universal cradle, mounted to the front of the component base section; for all cell phones, PDA's, MP3's, etc., with charge wire/sync wire access hole so the user links to a computer and/or to power; includes PSA cord/cable clips to manage the wires and cables if used. It is easy to install by just inserting the universal cradle component, 1320, into an empty component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB cable if needed.

USB port/hub component, 1330: the preferred embodiment (FIG. 315) is comprised of a six-port hub. With all the add-on and linkable items available today, USB hubs are becoming very popular items. Software may optionally be included to aid in the linking of the USB port/hub component, 1330, to a computer. Because this component has cables or cords, PSA cord/cable clips are included for cable management. It is easy to install by just inserting the USB port/hub component 1330, into an empty component receiving area on an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The user plugs in the USB cable to a computer and installs the software. The USB port/hub component, 1330, can be installed facing any direction allowing the user great flexibility. To use, the user just presses the USB connector into one of the six Receivers. To remove the plug, the user just pulls it out. The electronics are installed within the USB port/hub component, 1330.

VELCRO® loop pad component, 1340: the preferred embodiment (FIG. 319) is comprised of a Velcro® pad insert (loop side), mounted to the front of a component base section, along with included strips of hook side Velcro® to be cut and adhered to what ever the user wants for convenience or decoration. The preferred hook and loop materials are Velcro® product number 3531 loop Velcro® and Velcro® product number 3530 hook Velcro®. It is easy to install by just inserting the VELCRO® loop pad component, 1340, into an empty component receiving area in an organizing apparatus and securing by pushing in the snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. The die cut loop Velcro® is adhered to the top of the injection molded component base section, 1001.

VELCRO® dual lock pad component, 1350: the preferred embodiment (FIG. 322) is comprised of a dual lock Velcro® pad for heavy items that the user wants to be held fairly secure. The preferred embodiment of the pad itself is the Velcro® product number 250 Dual Lock Velcro®; specifically #SJ 3540 (rubber base adhesive), and the items attaching to the pad is preferably tabs of Velcro® product number 170 Velcro® (SJ 3542) and some tabs of the # 250 (for heavier items that have a small attachment area). Depending on size shape and weight of an item will decide which type of Velcro® tab will be used. For instance if it was a large flat item then a tab of the # 170 would be used as the #250 has a chance of being too strong and may compete with the Velcro® holding the mask on the monitor. If the item to be held was a coffee cup (a curved item), the #250 would be used because of its great pull and sheer strength for this heavy item and because it is curved, the user can easily break the #250 Velcro® bond in a peeling motion by rolling the coffee cup to the side. It is easy to install by just inserting the VELCRO® dual lock pad component, 1350, into an empty component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user peels and sticks the appropriate Velcro® to the item to be attached to the component, waits 24 hours for full bond and then pushes the item directly against the VELCRO® dual lock pad component, 1350, until the user hears an audible snap letting, the user know it is attached. To remove, the user rolls or peels off the item to remove it. The user is instructed to not try to pull straight off (out) or down for that is its strongest hold. The user applies the die-cut Dual Lock Velcro® to the top of the injection molded base component.

VELCRO® dual lock pad with wire access hole component, 1360: the preferred embodiment (FIG. 327) is comprised of a Dual lock Velcro® pad for heavy items that need wire access, further comprised of an access hole in both the Velcro® dual lock pad and the matching component base section, 1001. This allows the user to create a custom component for their PDA or cell phone with a wire access hole to allow for charging and linking cables. The preferred embodiment of the pad itself is the Velcro® product number 250 Dual Lock Velcro® Specifically #SJ 3540 (rubber base adhesive), and the preferred embodiment of the items attaching to the pad would be tabs of Velcro® product number 170 Velcro® (SJ 3542) as well as some tabs of the # 250 (for heavier items that have a small attachment area), depending on the size shape and weight of an item will decide which type of Velcro® tab will be used. It is easy for the user to install by just inserting the VELCRO® dual lock pad with wire access hole component, 1360, into a component receiving area in an organizing apparatus and securing by pushing in the four snap-in plunger buttons. Other means of attachments include, but are not limited to, adhesives, screws, various snap-on fittings or a quick-release clamp. To use, the user peels and sticks the appropriate Velcro® to the item wanting to be attached to the VELCRO® dual lock pad with wire access hole component, 1360, waits 24 hours for full bond and then pushes the item directly against the dual lock pad component until the user hears an audible snap letting the user know it is attached. To remove, the user rolls or peels off the item to remove it. The user applies the die cut loop Velcro® to the top of the injection molded base component.

Additional parts for the component system, 001 include the following:

Bud vase version I accessory, 2290, the preferred embodiment (FIG. 353) is a clear plastic or glass vile bud vase to hold either a real flower stem and or a silk flower stem. The vile, 40, is held secure by a clip, 42, with the use of clamping friction and the vile can be removed to add or remove water as needed. The clip has a flat plate on the back side which is where it can be attached to most smooth surfaces by the use of a 3M's removable “Command Adhesive” allowing the bud vase to be attached to your monitor, 63, organizing apparatuses, 110, to the glass on the front of a loved ones picture, your refrigerator, the bathroom mirror, your wall, the side of the book shelf, or to just about any near vertical surface with the ability to be removed at a later time if desired. The vile would come with a clear extremely flexible cap, 41, (50 A to 60 A Durometer) that has an ⅛″ hole in the center for the securing of the flower stem and if water is used (real flower only), the cap will make it more difficult to drip water from the vile when handling during installation. The ⅛″ hole in the cap has the ability to stretch to a much larger hole to accommodate the different size flower stems and hold them securely because of the flexibility of the material the cap is made from. It is easy to install the accessory by locating where you want to attach it, clean the surface where the adhesive will contact it with enclosed alcohol swab, peel off the adhesive protective liner and press the clip firmly into location. Wait one hour. If a real flower is used, fill the vile ⅔ full of water, snap on plastic cap, insert the flower stem into the vile through the cap, and carefully slide the vile into the holder from above. To remove, hold the clip in one hand and the adhesive tab in the other and stretch tab until the clip releases. There are many thermal forming processes that may work and many plastics that can be used to manufacture this component. The preferred method of manufacturing of this accessory is plastic injection molding. The flexible cap would be injection molded out of extremely flexible polyurethane. The vile would either be made of glass or injection molded out of acrylic. Another adhesive that would work with this component and would allow the user to be able to readjust it position slightly is dual lock VELCRO®.

Bud vase version II accessory, 2300, the preferred embodiment (FIG. 348) is a clear plastic or glass vile bud vase to hold either a real flower stem and or a silk flower stem. The vile, 40, is held secure by a clip, 42, with the use of clamping friction and the vile can be removed to add or remove water as needed. The clip is on the end of a small arm that is attached to the clip base, 42. The small arm is able to swivel and turn on the clip base with the use of a ball and socket joint, 116. The clip base can be attached to most smooth surfaces by the use of a 3M's removable “Command Adhesive” allowing the bud vase to be attached to your monitor, 63, organizing apparatuses, 110, to the glass on the front of a loved ones picture, your refrigerator, the bathroom mirror, your wall, side of the book shelf, or to just about any near vertical surface with the ability to be removed at a later time if desired. The vile would come with a clear extremely flexible cap, 41, (50 A to 60 A Durometer) that has an ⅛″ hole in the center for the securing of the flower stem and if water is used (real flower only), the cap will make it more difficult to drip water from the vile when handling during installation. The ⅛″ hole in the cap has the ability to stretch to a much larger hole to accommodate the different size flower stems and hold them securely because of the flexibility of the material the cap is made from. It is easy to install the accessory by locating where you want to attach it, clean the surface where the adhesive will contact it with enclosed alcohol swab, peel off the adhesive protective liner and press the clip firmly into location. Wait one hour. If a real flower is used, fill the vile ⅔ full of water, snap on plastic cap, insert the flower stem into the vile through the cap, and carefully slide the vile into the holder from above. There are many thermal forming processes that may work and many plastics that can be used to manufacture this component. The preferred method of manufacturing of this accessory is plastic injection molding. The flexible cap would be injection molded out of a extremely flexible polyurethane. The vile would either be made of glass or injection molded out of acrylic.

Cord and cable clip accessory, 2210: this accessory organizes cables and wires behind an organizing apparatus when using electrical components. Ones made by 3M #17017 and Radio Shack #278-1617 are preferred. They are adhered using PSA (pressure sensitive adhesive). The 3M “Command Adhesive Strip” is preferred because of its ability to be removed cleanly by pulling and stretching it. These cord and cable clips, 2210 are preferably injection molded out of ABS plastic in a matching color to an organizing apparatus. There are many thermal forming processes that may work and many plastics that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is ABS plastic.

Regular friction ring accessory, 2220: the preferred embodiment of a regular friction rings, 2220 is 70 Duramater Black #2-241 BUNA-N O-Rings. To install, first insert a photo/image into a component receiving area, 130, and follow with the regular friction ring accessory, 2220. This is best done by inserting the regular friction ring accessory, 2220, along the bottom of the component receiving area, 130, and using one hand to hold the bottom in place while the user's other hand forces the ring in the component receiving area, 130, by starting at the corner that is already in on the bottom and chasing the slack all the way around until the user's hand arrives at the other bottom corner. The regular friction ring accessory, 2220, is then held in place by both the friction of the ring to the component receiving area, 130, and the expanding friction pressure. There are many thermal forming processes that may work and many plastics and rubbers that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is nitrile or BUNA-N plastic, 70 Duramater.

Thick friction ring accessory, 2230: another embodiment of the friction ring is {fraction (3/16)}″ for a thick bolder look with the possibility option of having them made in primary and secondary colors for new look. Specs: 70 Duramater Black #2-243 BUNA-N O-Rings. To install, first insert a photo/image into a component receiving area, 130, and follow with the thick friction ring accessory, 2230. This is best done by inserting the ring along the bottom of the component receiving area, 130, and using one hand to hold the bottom in place while the user's other hand forces the ring in the component receiving area, 130, by starting at the corner that is already in on the bottom and chasing the slack all the way around until the user's hand meets the other bottom corner. The thick friction ring accessory, 2230, is then held in place by both the friction of the ring to the component receiving area, 130, and the expanding friction pressure. There are many thermal forming processes that may work and many plastics or rubbers that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is nitrile or BUNA-N plastic, 70 Duramater.

Special friction ring accessory, 2240: another possibility for the friction rings is to mold the friction rings in unusual shaped profiles. The profiles (section shape of the friction ring) do not have to be round as in the friction ring accessory, 2220, and the thick friction ring accessory, 2230, they could be in one of many shapes for example the shape of a multiple pointed star, clover, heart, or square. They could be molded into the shape of the component receiving area, 130, using different colors, even with the possibility of different graphic patterns as long as they keep the same friction on the surface edge of the component receiving area, 130. The friction ring could also have a section shape that is against the wall of the component receiving area, 130, and also comes out around the corner of the component receiving area 130 onto the front of the component receiving section. These friction rings are sized slightly larger than the component receiving area, 130, in order to get the proper friction to hold the photo/image into place. To install, first insert a photo/image into a component receiving area, 130, and follow with the special friction ring accessory, 2240. This is best done by inserting the ring along the bottom of the component receiving area, 130, and using the user's left hand to hold the bottom in place while the user's right hand forces the ring in the component receiving area, 130, by starting at the corner that is already in on the bottom and chasing the slack all the way around until the user's hand meets the other bottom corner. The photo/image is then held in place by both the friction of the ring to the component receiving area, 130, and the expanding friction pressure. There are many thermal forming processes that may work and many plastics that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is nitrile or BUNA-N plastic, 70 Duramater.

Hanging hook accessory, 2250: the hanging hook, 1250 (FIG. 329), can be attached anywhere on a monitor or on the side of an organizing apparatus or on anything else. The hanging hook, 1250, is part of the product line as a useful addition to the organizing nature of the line. The hanging hook, 2250, is preferably attached using double stick tape like 3M's Command Adhesive Strip. The 3M “Command Adhesive® strip” works well because of its ability to be removed cleanly by pulling and stretching it. The hanging hook, 2250 is preferably made in the organizing apparatus's colors for a uniform look in the office space. There are many thermal forming processes that may work and many plastics that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is ABS plastic. In another embodiment the material for the hanging hook is metal.

Paper tray accessory, 2260: the preferred embodiment (FIG. 331-FIG. 340) is a paper tray that is made to fit and attach under an organizing apparatus disposed with six or eight component receiving areas, in order to save desktop space. The paper tray, 2260, is made with the same look as an organizing apparatus. It is made to be used with an organizing apparatus enabled for horizontal surfaces but also looks good being used by itself. The paper tray, 2260, is made to key into other paper trays, 2260, allowing them to become stackable if the user wishes to use them this way. The user simply slides the paper, mail, or what ever the user wishes to use it for, in from the end and the user retrieves these items from the same end. There are many thermal forming processes that may work and many plastics that can be used to manufacture this accessory. The preferred method of manufacturing of this accessory is plastic injection molding and the preferred material is ABS plastic.

Folder rack accessory, 2320: the preferred embodiment (FIG. 341) is a rack that will hold folders vertically and have 5 or 6 slots that could hold one or many folders, notebooks, etc., per slot. It is part of the system as a useful addition to the organizing nature of the system. It will be made to complement the system by design and color.

Velcro® Dual Lock tabs accessory, 2270: these are replacement parts for the component system, 001 for a monitor. They may be needed for a number of reasons such as the user lost or destroyed them before attaching, or by attaching incorrectly and needed to be removed and destroyed them during removal. They could also be needed if the user changed monitors and needed new tabs to adhere the organizer apparatus to the new monitor. This package includes an alcohol swab, three mated pairs of #250 Dual Lock Velcro®, Specifically #SJ 3540 (rubber base adhesive) 0.750″×1″, one pair of #250 Dual Lock Velcro® mated back to back (adhesive to adhesive) (Riser Block) 0.750″×1″.

Velcro® hook and loop buttons accessory, 2280: these are small tab size pieces (around ⅞″ round or square) that can be placed anywhere on the face, sides, or top, to stick small things to an organizing apparatus or to most anything for convenience or for accessibility, such as a pen, staple puller, micro stapler, or trinket. It is part of the product line as a useful addition to the organizing nature of the line. They are easy to install by just peeling off the liner and sticking the loop side in the area desired. The user peels the liner off the mating piece of hook Velcro® and attaches to desired item the user wishes to attach to the loop tab. To remove, the user rolls or peels off the item to remove it. The Velcro® has the ability to stick well to smooth and semi smooth surfaces.

The Monitor Organizing Apparatus, 110M, is attached to a monitor as follows:

-   -   1. Unplug the monitor from both the computer and the power.     -   2. Clean the face of the monitor where the Monitor Organizing         Apparatus, 110M, attaches. Clean monitor as per manufacturer         recommendation. After proper cleaning, use an alcohol swab to         wipe the areas of the frame around the screen where the tape         will adhere. Note: Wipe ONLY the frame around the screen,         alcohol may damage some clear plastics, LCD screens, antiglare         or polarized screens, laptop or notebook computer screens.     -   3. Three 1-inch×¾ inch mated “Dual Lock” Velcro tabs are         included with the Monitor Organizing Apparatus, 1110M. These         tabs will be located on the backside along the inside edge of         the Monitor Organizing Apparatus, 110M, (edge closest to the         monitor screen) on the provided tape blocks. Place one tab on         the inside corner and the other two on the outer ends. Now that         you know where the mated “Dual Lock” Velcro tabs should go on         the Monitor Organizing Apparatus, 110M, turn the Monitor         Organizing Apparatus, 110M, over so the back is facing you, peel         the liner off one side of the mated tabs and place them on the         tape blocks. Note: Keep the tabs slightly set in from the edge         of the opening (to make the tabs less visible from the front).     -   4. Hold the Monitor Organizing Apparatus, 110M, up to your         monitor face to see where you want it located on your monitor         (left or right side, how far away from the screen, etc.) After         placing the Velcro on the back of the Monitor Organizing         Apparatus, 110M, remove the remaining liner from the Velcro,         hold the Monitor Organizing Apparatus, 110M, in both hands, and         carefully locate the Monitor Organizing Apparatus, 110M, by         holding it close to the monitor without touching the adhesive.         Once located, press into the desired location. **     -   5. Press firmly on the frame where your Velcro tape is, to         ensure a good bond.     -   6. After approximately 10 minutes, remove the Monitor Organizing         Apparatus, 110M from your monitor. Make sure that the dual lock         Velcro is still firmly attached to both the monitor and the         Monitor Organizing Apparatus, 110M. Leave the Monitor and the         Monitor Organizing Apparatus separated for 24 hours to allow the         adhesive to reach full strength before reattaching and using the         Monitor Organizing Apparatus. Note: The Monitor Organizing         Apparatus, 110M, should hold fine with this Velcro         configuration. Some older CRT monitors have deep horizontal and         vertical curves that prevent the adhesive or Velcro from staying         connected. For these few circumstances we have provided a dual         lock “riser block” to hold the inside corner of the Monitor         Organizing Apparatus, 1110M, slightly farther away from the         monitor to relieve the stress on the Monitor Organizing         Apparatus, 110M, allowing it to stay connected.         ** If placement of the Monitor Organizing Apparatus, 1110M,         against your monitor face is slightly misaligned you may quickly         pull off the Velcro and re-adhere. The adhesive bond is not as         strong in the first minute of adhering but will reach 70% of its         strength in the first hour of adhesion.

Images or photos are installed into an organizing apparatus, 110, as follows:

-   -   1. Align the image template over the photo or image that you         want in your Organizing Apparatus, 110. Carefully trace around         the template with an appropriate marking instrument.     -   2. Now cut out the image with your scissors and place into the         appropriate component receiving area, 130, on the Organizing         Apparatus, 110. Note: make sure that your image is not binding         in the component receiving area, 130, It must lay flat. If it is         binding, trim off the edges that are keeping it from laying         flat.     -   3. Insert the image followed by the friction ring into the         component receiving area, 130, to hold it into place.     -   4. Repeat this step for all the component receiving areas, 130,         until done.

Components, 1000, are installed into an organizing apparatus, 110 as follows:

-   -   A separately purchased Component, 1000, may be installed in         different ways depending upon the component. You should follow         the installation instructions that come with your purchased         component; the following instructions serve only as a guide.     -   Some non-electronic components may be installed with adhesive         such as double-stick adhesive tape and others may be secured         with hardware such as screws. The Organizing Apparatus, 110, has         available screw holes in the component/image component receiving         areas, 130, for such an instance.     -   Some electronic components could be installed using screws and         will be included with the purchased component. When installing         the screws you will need the appropriate screwdriver for the         provided screws. Do not over tighten the screws; they only need         to be tightened until snug.     -   Other components will have small fingers on the backside that         will slide through the holes in the Organizing Apparatus, 110.         Once in place, simply push in the snap-in plungers on the front         to secure. To remove, just pull out the little buttons, and push         the component from the back of the Organizing Apparatus, 110,         out of its component receiving area, 130.     -   For most electronic components that need a wire access from the         rear of the Organizing Apparatus, 110, a 0.700″D. hole is         provided, and if a larger hole is needed for a larger plug, a         1.266″ D. knockout is provided in the component receiving area,         130. The ring is easily removed by hand. Push on edge of the one         you would like to remove and twist it until it falls off.

The above description and drawings are only illustrative of preferred embodiments which achieve the objects, features and advantages of the present invention, and it is not intended that the present invention be limited thereto. Any modification of the present invention which comes within the spirit and scope of the following claims is considered part of the present invention.

Below is a table of the reference numbers pertaining to the present invention. Reference Number Reference Name  001 Organizing System  001D Desktop Organizing System  001M Monitor Organizing System  001V Multipurpose Organizing System  001W Wall Hanging Organizing System  12 Friction Ring  16 Image  17 Image Template  18 Dual Lock Velcro ®  19 Removable Adhesive Tape  20 Dry Erase Board Material  21 Sticky Bulletin Board Material  22 Sticky Note Pad  23 3M's Tape Dispenser Conversion Plate  24 Disk Receptacle  25 Receptacle Receiver  26 Disk Caddy Accessory Support  32 Screw Boss (Screw Stem)  34 Tape Platform  36A Inner Access hole Knockout  36B Outer Access hole Knockout  37 Tape Dispenser Spacer Block  38 Double Sided Foam Adhesive Tape  39 3M's Command Adhesive ®  40 Vile  41 Cap  42 Clip  43 Clip Base  44 Photo/Image/Mirror Pocket  45 Magnet Sheet Material  46 Hook & Loop Velcro ®  46A Loop Velcro ®  56 Male/Female Connection  56M Male Connection  56F Female Connection  58 110V's Wedge Connector  60 110V's Hang Flat Attachment  60H Hang Flat Attachment's Nail or Hook Hole  61 110V's Hang Flat Cleat  62 Packaging  63 Computer Monitor  64 Vertical Surface  65 Friction Nibs  66 110W's Hanging Cleat  67 110W's Supporting Cleat  68 110W's Batten  69 110W's Cubical Wall Hangers  70 110W's Cubical Wall Hanger   Attachment Holes  71 110W's Batten Attachment Holes  110 Organizing Apparatus  110D Desktop Organizing Apparatus  110D1 Desk Top Organizing Apparatus-Solo  110D3 Desk Top Organizing Apparatus-Three  110D6 Desk Top Organizing Apparatus-Six  110D8 Desk Top Organizing Apparatus-Eight  110M Monitor Organizing Apparatus  110V Multipurpose Organizing Apparatus  110W Wall Hanging Organizing Apparatus  111 110D's Bottom section  112 Feet  113 110D's Bottom Side  114 110D's Support Section  115 Foot Aligning Pocket  116 Ball and Socket Joint  120 Component/Image Receiving Section  120D Desktop Organizing Apparatus Component/Image Receiving Section  120M Monitor Organizing Apparatus Component/Image Receiving Section  120V Multipurpose Organizing Apparatus Component/Image Receiving Section  120W Wall Hanging Organizing Apparatus Component/Image Receiving Section  130 Component/Image Receiving Area  130′ Back of Component/Image Receiving Area  140 Cavity  141 Component Securing Hole  142 Adhesive Base  143 Access Hole  144 Punch-out Section  160 Organizing Apparatus Engaging Section  160V Multipurpose Organizing Apparatus Engaging Section 1000 Component 1001 Component Base Section 1002 Component to Component Base Securing Means 1003 Component Base to Apparatus Securing Means 1003S Component Securing Means Snap-in Plunger 1003S1 Securing Means Snap-in Plunger Locked Position 1003S2 Securing Means Snap-in Plunger Unlocked Position 1003F Component Securing Means Friction Fit 1003A Component Securing Means Adhesive 1003SC Component Securing Means Screws 1003B Component Securing Means Bolts 1003Q Component Securing Means Quick Release Clamps 1003T Component Securing Means Tapered Pin and Hole Friction Fit 1003V Component Securing Means Velcro ® 1003M Component Securing Means 3M's Command Adhesive ® 1004 Component Accessory Section 1010 Audio Station Component 1020 Bud Vase Component Version I 1030 Calculator Component 1040 Caller ID Display Component 1050 Camera Component 1060 Card Holder Component 1070 Cell Phone Clip Component 1080 Dial Clock Component 1090 Digital Clock Component 1100 Horizontal Disk Caddy Component Version I 1110 Vertical Disk Caddy Component 1120 Document Holder Component 1130 Fan Component 1140 Flag Dispenser Component 1150 Flash Memory Card Reader/Writer Component 1160 Hanging Hook Component 1170 LCD Screen Component 1180 Mirror Component 1190 Photo/Image Mat Component 1200 Photo/Image Mat - Consumer Printed Component 1210 Small Pocket Component 1220 Medium Pocket Component 1230 Large Pocket Component 1240 Tall Pocket Component 1250 Satellite Radio Receiver Socket & Radio Component 1260 Speaker Component 1270 Sticky Bulletin Board Component 1280 Sticky Notes Component 1290 Tape Dispenser Version 1 “3M” Component 1300 Tape Dispenser Version 3 Component 1310 Task Light Version I Component 1320 Universal Cradle Component 1330 USB Port/Hub Component 1340 Velcro ® Loop Pad Component 1350 Velcro ® Dual Lock Pad Component 1360 Velcro ® Dual Lock Pad With Wire Access Hole Component 1370 Tape Dispenser Version 2 Component 1380 AM/FM Radio Component 1390 Task Light Version II Component 1400 Magnetic Holder Component 1410 Dry Erase Board Component 1420 Friction Frame Component 1430 Bud Vase Component Version II 1440 Horizontal Disk Caddy Component Version II 2200 System Accessory 2210 Cord & Cable Clip Accessory 2220 Regular Friction Ring Accessory 2230 Thick Friction Ring Accessory 2240 Special Friction Ring Accessory 2250 Hanging Hook Accessory 2260 Paper Tray Accessory 2270 Velcro ® Dual Lock Tab Accessory 2280 Velcro ® Hook And Loop Button Accessory 2290 Bud Vase Version 1 Accessory 2300 Bud Vase Version 2 Accessory 2310 Vertical Disk Caddy Reconfigured Accessory 2320 Folder Rack Accessory 

1. An organizer component system comprised of at least one organizing apparatus and at least one component, wherein said organizing apparatus is further comprised of a component receiving section and a component engaging section, said component receiving section is comprised of at least one component receiving area, said component and said component receiving area are reciprocally enabled for secure attachment of said component to said component receiving area, and said component engaging section is enabled for placement on a surface.
 2. The organizer component system as described in claim 1, wherein said component receiving area is reciprocally enabled for secure attachment of said component to said component receiving area via at least one of the group consisting of Snap-in Plunger, Friction Fit, Adhesive, Screws, Bolts, Quick Release Clamps, Tapered Pin and Hole Friction Fit, Velcro®, 3M's Command Adhesive®, among others.
 3. The organizer component system as described in claim 2, further comprised of at least one system accessory.
 4. The organizer component system as described in claim 3, wherein said component receiving area is further comprised of at least one cavity.
 5. The organizer component system as described in claim 4, wherein said cavity is further comprised of at least one securing hole.
 6. The organizer component system as described in claim 5, wherein said component is selected from the group consisting of audio station component, bud vase component version I, bud vase component version II, calculator component, called ID display component, camera component, card holder component, cell phone clip component, dial clock component, digital clock component, horizontal disk caddy component version I, horizontal disk caddy component version II, vertical disk caddy component, document holder component, dry erase board component, fan component, flag dispenser component, flash memory card reader/writer component, friction frame component, hanging hook component, LCD screen component, mirror component, photo/image mat component, photo/image mat—consumer printed component, magnetic holder component, small pocket component, medium pocket component, large pocket component, tall pocket component, satellite radio receiver socket component, AM/FM radio component, speaker component, sticky bulletin board component, sticky notes component, tape dispenser version 1 “3M” component, tape dispenser version II component, tape dispenser version 3 component, task light version I component, task light version II component, universal cradle component, USB port/hub component, Velcro® loop pad component, Velcro® dual lock pad component, Velcro® dual lock pad with wire access hole component.
 7. The organizer component system of 6, wherein said system accessory is selected from the group consisting of (cord & cable clip accessory, regular friction ring accessory, thick friction ring accessory, special friction ring accessory, hanging hook accessory, paper tray accessory, Velcro® dual lock tab accessory, Velcro® hook and loop button accessory, bud vase version 1 accessory, bud vase version 2 accessory, vertical disk caddy reconfigured accessory, folder rack accessory). 